CATALOGUE OF GENE SYMBOLS FOR WHEAT: 2005 Supplement

CATALOGUE OF GENE SYMBOLS FOR WHEAT: 2005 Supplement

R.A. McIntosh¹, K.M. Devos², J. Dubcovsky³, W.J. Rogers⁴, C.F. Morris⁵, R. Appels⁶, and O.D. Anderson⁷

¹Plant Breeding Institute, The University of Sydney Plant Breeding Institute Cobbitty, Private Bag 11, Camden, N.S.W. 2570, Australia. bobm@camden.usyd.edu.au

²Departments of Crop and Soil Sciences, and Plant Biology, University of Georgia, Athens, GA 30602, U.S.A. kdevos@uga.edu

³Department of Agronomy and Range Science, University of California, Davis, CA 95616, U.S.A. jdubcovsky@ucdavis.edu

⁴Facultad de Agronomía, Universidad Nacional del Centro de la Provincia de Buenos Aires, C.C. 47, (7300) Azul, Argentina. rogers@faa.unicen.edu.ar

⁵USDA-ARS Western Wheat Laboratory, Pullman, WA 99164-6394, U.S.A. morrisc@wsu.edu

⁶W.A. Department of Agriculture & Molecular Plant Breeding Research Centre, Biological Sciences, Murdoch University, Locked Bag 4, Bentley Delivery Centre, Perth, W.A. 6983, Australia. rappels@agric.wa.gov.au

⁷USDA-ARS 800 Buchanan St., Albany, CA 94710, U.S.A. oandersn@pw.usda.gov

The most recent edition of the Catalogue, produced and presented at the 10^th International Wheat Genetics Symposium is available on CD. MacGene was produced by Y. Yamazaki (yyamazak@lab.nig.ac.jp) in collaboration with R.A. McIntosh. The Catalogue and the 2004 Supplement are displayed on the GrainGenes Website:

http://wheat.pw.usda.gov

Genes and Germplasm. TO BE ADDED AS CLAUSE 9 OF THE INTRODUCTION.

Agreed gene designations and appropriate germplasm sources to represent them are the means of consolidating genetic knowledge in an orderly way. Such genetic stocks are reference points essential to the identification and development of new genes and germplasm. Various past members of the International Wheat Genetics Symposia Committees and the Curators of the Wheat Gene Catalogue approved by the International Wheat Genetics Symposium have agreed that new wheat gene designations in non-released germplasm will be provided only if suitable genetic stocks are available in at least one of a number of approved public germplasm collections. Such stocks in some germplasm collections, at least, can be protected by means of a Memorandum of Understanding limiting their use only to research. In most instances this will not apply to cultivars unless it is anticipated that such cultivars would be difficult to procure for research.

The currently approved collections are:

Australian Winter Cereals Collection

CIMMYT collection

ICARDA collection

John Innes Collection

Kansas State University Wheat Genetics Resource Centre Collection

Nordic Gene Bank (publicly available germplasm only)

USDA National Small Grains Collection.

Add to the Designators:

uhw

Tzion Fahima
fahima@research.haifa.ac.il Institute of Evolution
University of Haifa
Mt. Carmel, Haifa 31905, Israel

cwem

Colorado wheat ESR-derived microsatellite

Nora Lapitan

Ft Collins

Colorado State University

CO 80523

USA

DNA Markers

Add at end of introductory section: Approximately 8000 ESTs were mapped on a set of 101 deletion lines, containing 159 deletions distributed over the 42 wheat chromosome arms. The allocation of these ESTs to chromosome ‘bins’ can be viewed on http://wheat.pw.usda.gov/NSF/progress.mapping.html.

Manuscripts resulting from this work include {10041} and {10042}.’

Group 1AS	Locus {reference}	Chrom.	Primers
Add reference	Xbarc119-1A {10124}	1AS	BARC119F / BARC119R
Correct	Xbarc120-1A {10124}	1AS	BARC120F / BARC120R
Add reference	Xbarc148-1A {10124}	1AS	BARC148F / BARC148R
Correct	Xbarc162-1A {10124}	1AS	BARC162F / BARC162R
Add reference	Xbarc263-1A {10124}	1AS	BARC263F / BARC263R
Correct to 1AS	Xbarc28-1A {10124}	1AS	BARC28F / BARC28R
Add reference	Xbarc6-1A {10126}	1AS	BARC6F / BARC6R
New	Xbarc1048-1A {10124}	1AS	BARC1048F / BARC1048R
New	Xbarc1095-1A {10124}	1AS	BARC1095F / BARC1095R
New	Xbarc150-1A {10124}	1AS	BARC150F / BARC150R
New	Xbarc176-1A {10124}	1AS	BARC176F / BARC176R
New	Xbarc25-1A {10124}	1AS	BARC25F / BARC25R
New	Xcfa2153-1A {10126}	1AS	CFA2153F / CFA2153R
Group 1AL
Add reference	Xbarc158-1A {10124}	1AL	BARC158F / BARC158R
Add reference	Xbarc17-1A {10124}	1AL	BARC17F / BARC17R
Add reference	Xbarc213-1A {10124}	1AL	BARC213F / BARC213R
Add reference	Xbarc287-1A {10124}	1AL	BARC287F / BARC287R
New	Xbarc1022-1A {10124}	1AL	BARC1022F / BARC1022R
New	Xbarc48-1A {10124}	1AL	BARC48F / BARC48R
New	Xbarc83-1A {10124}	1AL	BARC83F / BARC83R
New	Xgpw7068-1A {10126}	1AL	GPW7068F / GPW7068R
Group 1A
New	Xbarc1168-1A {10124}	1A	BARC1168F / BARC1168R
New	Xbarc145-1A {10125}	1A	BARC145F / BARC145R
New	Xbarc209-1A {10124}	1A	BARC209F / BARC209R
New	Xbarc240-1A {10125}	1A	BARC240F / BARC240R
New	Xcfd22-1A {10125}	1A	CFD22F /CFD22R
New	Xcfd30-1A {10125}	1A	CFD30F /CFD30R
New	Xcfd59-1A {10125}	1A	CFD59F /CFD59R
New	Xgdm136-1A {10125}	1A	DMS136F /DMS136R
New	Xgwm11-1A {10125}	1A	WMS11F /WMS11R
New	Xwmc11-1A {10125}	1A	WMC11F /WMC11R
New	Xwmc183-1A {10125}	1A	WMC183F /WMC183R
New	Xwmc469-1A {10125}	1A	WMC469F /WMC469R
New	Xwmc51-1A {10125}	1A	WMC51F /WMC51R
New	Xwmc611-1A {10125}	1A	WMC611F /WMC611R
New	Xwmc630-1A {10125}	1A	WMC630F /WMC630R
New	Xwmc673-1A {10125}	1A	WMC673F /WMC673R
New	Xwmc716-1A {10125}	1A	WMC716F /WMC716R
New	Xwmc744-1A {10125}	1A	WMC744F /WMC744R
New	Xwmc818-1A {10125}	1A	WMC818F /WMC818R
New	Xwmc826-1A {10125}	1A	WMC826F /WMC826R
New	Xwmc9-1A {10125}	1A	WMC9F /WMC9R
Group 1BS
New	Xbarc1159-1B {10124}	1BS	BARC1159F/ BARC1159R
New	Xbarc194-1B {10124}	1BS	BARC194F / BARC194R
New	Xcfd170-1B {10126}	1BS	CFD170F / CFD170R
Correct to 1BS	Xcfa2241-1B {10126}	1BS	CFA2241F / CFA2241R
New	Xgdm18-1B {10126}	1BS	DMS18F / DMS18R
Correct to 1BS	Xgwm18-1B {10126}	1BS	WMS18F / WMS18R
Correct to 1BS	Xgwm273-1B {10126}	1BS	WMS273F / WMS273R
Correct to 1BS	Xgwm413-1B {10126}	1BS	WMS413F / WMS413R
Add 1BS to 1AS	Xgwm33-1B {10126}	1BS	WMS33F / WMS33R
Group 1BL
Add reference	Xbarc137-1B {10124}	1BL	BARC137F / BARC137R
Add reference	Xbarc174-1B {10124}	1BL	BARC174F / BARC174R
Add reference	Xbarc181-1B {10124}	1BL	BARC181F / BARC181R
Add reference	Xbarc187-1B {10124}	1BL	BARC187F / BARC187R
Add reference	Xbarc188-1B {10124}	1BL	BARC188F / BARC188R
Add reference	Xbarc240-1B {10124}	1BL	BARC240F / BARC240R
Add reference	Xbarc302-1B {10124}	1BL	BARC302F / BARC302R
Add reference	Xbarc61-1B {10124}	1BL	BARC61F / BARC61R
Add reference	Xbarc80-1B {10124}	1BL	BARC80F / BARC80R
Add reference	Xbarc81-1B {10124}	1BL	BARC81F / BARC81R
New	Xbarc1015-1B {10124}	1BL	BARC1015F/ BARC1015R
New	Xbarc1129-1B {10124}	1BL	BARC1129F/ BARC1129R
New	Xbarc1131-1B {10124}	1BL	BARC1131F/ BARC1131R
New	Xbarc131-1B {10126}	1BL	BARC131F / BARC131R
Correct to 1BL	Xcfa2158-1B c	1BL	CFA2158F / CFA2158R
Add 1BL	Xcfd20-1B {10126}	1BL	CFD20F / CFD20R
Change 1B to 1BL	Xcfd48-1B {10126}	1BL	CFD48F / CFD48R
New	Xcfd251-1B {10126}	1BL	CFD251F / CFD251R
New	Xgdm268-1B {10126}	1BL	DMS268 / DMS268
Correct name	Xgwm264.2-1B {10126}	1BL	WMS264 / WMS264
Change 1B to 1BL	Xwmc52-1B {10126}	1BL	WMC52F / WMC52R
Group 1B
New	Xbarc116-1B {10124}	1B	BARC116F / BARC116R
New	Xbarc119-1B {10124}	1B	BARC119F / BARC119R
New	Xbarc1094-1B {10124}	1B	BARC1094F/ BARC1094R
New	Xbarc1110-1B {10124}	1B	BARC1110F/ BARC1110R
New	Xbarc1115-1B {10124}	1B	BARC1115F/ BARC1115R
New	Xbarc1134-1B {10124}	1B	BARC1134F/ BARC1134R
New	Xbarc1154-1B {10124}	1B	BARC1154F/ BARC1154R
New	Xbarc1168-1B {10124}	1B	BARC1168F/ BARC1168R
New	Xbarc128-1B {10125}	1B	BARC128F / BARC128R
New	Xbarc60-1B {10125}	1B	BARC60F / BARC60R
New	Xbarc8-1B {10125}	1B	BARC8F / BARC8R
New	Xcfa2129-1B {10125}	1B	CFA2129F / CFA2129R
New	Xcfd2-1B {10125}	1B	CFD2F / CFD2R
New	Xgdm101-1B {10125}	1B	DMS101F / DMS101R
New	Xgdm136-1B {10125}	1B	DMS136F / DMS136R
New	Xgdm33-1B {10125}	1B	DMS33F / DMS33R
New	Xgdm36-1B {10125}	1B	DMS36F / DMS36R
New	Xgwm133-1B {10125}	1B	WMS133F / WMS133R
New	Xgwm374.1-1B {10125}	1B	WMS374.1F/ WMS374.1R
New	Xgwm374.2-1B {10125}	1B	WMS374.2F/ WMS374.2R
New	Xgwm494-1B {10125}	1B	WMS494F / WMS494R
New	Xgwm608-1B {10125}	1B	WMS608F / WMS608R
New	Xwmc128-1B {10125}	1B	WMC128F / WMC128R
New	Xwmc206-1B {10125}	1B	WMC206F / WMC206R
New	Xwmc213-1B {10125}	1B	WMC213F / WMC213R
New	Xwmc269-1B {10125}	1B	WMC269F / WMC269R
New	Xwmc31-1B {10125}	1B	WMC31F / WMC31R
New	Xwmc367-1B {10125}	1B	WMC367F / WMC367R
New	Xwmc416-1B {10125}	1B	WMC416F / WMC416R
New	Xwmc419-1B {10125}	1B	WMC419F / WMC419R
New	Xwmc597-1B {10125}	1B	WMC597F / WMC597R
New	Xwmc611-1B {10125}	1B	WMC611F / WMC611R
New	Xwmc619-1B {10125}	1B	WMC619F / WMC619R
New	Xwmc626-1B {10125}	1B	WMC626F / WMC626R
New	Xwmc631-1B {10125}	1B	WMC631F / WMC631R
New	Xwmc673-1B {10125}	1B	WMC673F / WMC673R
New	Xwmc694-1B {10125}	1B	WMC694F / WMC694R
New	Xwmc719-1B {10125}	1B	WMC719F / WMC719R
New	Xwmc728-1B {10125}	1B	WMC728F / WMC728R
New	Xwmc766-1B {10125}	1B	WMC766F / WMC766R
New	Xwmc798-1B {10125}	1B	WMC798F / WMC798R
New	Xwmc813-1B {10125}	1B	WMC813F / WMC813R
New	Xwmc818-1B {10125}	1B	WMC818F / WMC818R
New	Xwmc830-1B {10125}	1B	WMC830F / WMC830R
Group 1DS
Add reference	Xbarc152-1D {10124}	1DS	BARC152F / BARC152R
New	Xbarc148-1D {10125}	1DS	BARC148F / BARC148R
New	Xbarc149-1D {10124}	1DS	BARC149F / BARC149R
Add to 1AS 1BS	Xcfd15-1D {10126}	1DS	CFD15F /CFD15R
Change 1DL to 1DS	Xcfd21-1D {10126}	1DS	CFD21F /CFD21R
Change 1DL to 1DS	Xcfd58-1D{10126}	1DS	CFD58F /CFD58R
New	Xgpw7082-1D{10126}	1DS	GPW7082F / GPW7082R
Change 1DL to 1DS	Xgwm33-1D{10126}	1DS	WMS33F /WMS33R
Change 1DL to 1DS	Xgwm337-1D{10126}	1DS	WMS337F /WMS337R
Add to 1BS	Xgwm603-1D{10126}	1DS	WMS603F /WMS603R
Group 1DL
Add referente	Xbarc119-1D {10124}	1DL	BARC119F / BARC119R
Add referente	Xbarc169-1D {10124}	1DL	BARC169F / BARC169R
Correct	Xbarc229.1-1D {10124}	1DL	BARC229F / BARC229R
Correct	Xbarc229.2-1D {10124}	1DL	BARC229F / BARC229R
Add referente	Xbarc271-1D {10124}	1DL	BARC271F / BARC271R
Add referente	Xbarc62-1D {10124}	1DL	BARC62F / BARC62R
Add referente	Xbarc66-1D {10124}	1DL	BARC66F / BARC66R
Add referente	Xbarc99-1D {10124}	1DL	BARC99F / BARC99R
New	Xbarc1042-1D {10124}	1DL	BARC1042F/ BARC1042R
New	Xbarc1090-1D {10124}	1DL	BARC1090F/ BARC1090R
New	Xbarc1108-1D {10124}	1DL	BARC1108F/ BARC1108R
New	Xbarc1149-1D {10124}	1DL	BARC1149F/ BARC1149R
Add to 1AL	Xbarc162-1D {10124}	1DL	BARC162F / BARC162R
New	Xbarc210-1D {10124}	1DL	BARC210F / BARC210R
New	Xbarc346-1D {10124}	1DL	BARC346F / BARC346R
Group 1D
New	Xbarc112-1D {10124}	1D	BARC112F / BARC112R
New	Xbarc1150-1D {10124}	1D	BARC1150F/ BARC1150R
New	Xbarc240-1D {10125}	1D	BARC240F / BARC240R
New	Xbarc27-1D {10124}	1D	BARC27F / BARC27R
New	Xcfa2129-1D {10125}	1D	CFA2129F / CFA2129R
New	Xcfd15-1D {10125}	1D	CFD15F / CFD15R
New	Xcfd48-1D {10125}	1D	CFD48F / CFD48R
Add to 1BS	Xcfd92-1D{10126}	1D	CFD92F /CFD92R
New	Xgwm147-1D {10125}	1D	WMS147F / WMS147R
New	Xgwm191-1D {10125}	1D	WMS191F / WMS191R
New	Xgwm608-1D {10125}	1D	WMS608F / WMS608R
New	Xwmc261-1D {10125}	1D	WMC261F / WMC261R
New	Xwmc339-1D {10125}	1D	WMC339F / WMC339R
New	Xwmc405-1D {10125}	1D	WMC405F / WMC405R
New	Xwmc489-1D {10125}	1D	WMC489F / WMC489R
New	Xwmc590-1D {10125}	1D	WMC590F / WMC590R
New	Xwmc609-1D {10125}	1D	WMC609F / WMC609R
New	Xwmc673-1D {10125}	1D	WMC673F / WMC673R
New	Xwmc732-1D {10125}	1D	WMC732F / WMC732R
New	Xwmc813-1D {10125}	1D	WMC813F / WMC813R
Group 2AS
Correct	Xbarc1138.1-2A {10124}	2AS	BARC1138F/ BARC1138R
Correct	Xbarc1138.2-2A {10124}	2AS	BARC1138F/ BARC1138R
Add reference	Xbarc124-2A {10124}	2AS	BARC124F / BARC124R
Add reference	Xbarc212-2A {10124}	2AS	BARC212F / BARC212R
Add reference	Xbarc231-2A {10124}	2AS	BARC231F / BARC231R
Add reference	Xbarc5-2A {10124}	2AS	BARC5F / BARC5R
New	Xbarc201-2A {10124}	2AS	BARC201F / BARC201R
New	Xbarc208-2A {10124}	2AS	BARC208F / BARC208R
Change 2A to 2AS	Xcfd2-2A {10126}	2AS	CFD2F / CFD2R
New	Xcfd50-2A {10126}	2AS	CFD50F / CFD50R
Group 2AL
Add referente	Xbarc279-2A {10124}	2AL	BARC279F / BARC279R
Add referente	Xbarc309-2A {10124}	2AL	BARC309F / BARC309R
Correct	Xbarc353.1-2A {10124}	2AL	BARC353F / BARC353R
Correct	Xbarc353.2-2A {10124}	2AL	BARC353F / BARC353R
New	Xbarc15-2A {10124}	2AL	BARC15F / BARC15R
New	Xbarc220-2A {10124}	2AL	BARC220F / BARC220R
Add to 2BL	Xcfd267-2A {10126}	2AL	CFD267F / CFD267R
Change 2AS to 2AL	Xgpw2111-2A {10126}	2AL	GPW2111F / GPW2111R
Change 2AS to 2AL	Xgwm249-2A {10126}	2AL	WMS249F / WMS249R
Group 2A
New	Xbarc76-2A {10125}	2A	BARC76F / BARC76R
New	Xbarc138-2A {10126}	2A	BARC138F / BARC138R
New	Xcfd168-2A {10125}	2A	CFD168F / CFD168R
New	Xcfd6-2A {10125}	2A	CFD6F / CFD6R
New	Xcfd86-2A {10125}	2A	CFD86F / CFD86R
New	Xgdm101-2A {10125}	2A	DMS101F / DMS101R
New	Xwmc149-2A {10125}	2A	WMC149F / WMC149R
New	Xwmc455-2A {10125}	2A	WMC455F / WMC455R
New	Xwmc598-2A {10125}	2A	WMC598F / WMC598R
New	Xwmc602-2A {10125}	2A	WMC602F / WMC602R
New	Xwmc632-2A {10125}	2A	WMC632F / WMC632R
New	Xwmc644-2A {10125}	2A	WMC644F / WMC644R
New	Xwmc658-2A {10125}	2A	WMC658F / WMC658R
New	Xwmc667-2A {10125}	2A	WMC667F / WMC667R
New	Xwmc702-2A {10125}	2A	WMC702F / WMC702R
New	Xwmc728-2A {10125}	2A	WMC728F / WMC728R
New	Xwmc792-2A {10125}	2A	WMC792F / WMC792R
New	Xwmc794-2A {10125}	2A	WMC794F / WMC794R
New	Xwmc819-2A {10125}	2A	WMC819F / WMC819R
New	Xwmc827-2A {10125}	2A	WMC827F / WMC827R
Group 2BS
Add reference	Xbarc13-2B {10124}	2BS	BARC13F / BARC13R
Add reference	Xbarc160-2B {10124}	2BS	BARC160F / BARC160R
Add reference	Xbarc18-2B {10124}	2BS	BARC18F / BARC18R
Add reference	Xbarc200-2B {10124}	2BS	BARC200F / BARC200R
Add reference	Xbarc318-2B {10124}	2BS	BARC318F / BARC318R
Add reference	Xbarc349-2B {10124}	2BS	BARC349F / BARC349R
Add reference	Xbarc361-2B {10124}	2BS	BARC361F / BARC361R
Add reference	Xbarc7-2B {10124}	2BS	BARC7F / BARC7R
Add reference	Xbarc91-2B {10124}	2BS	BARC91F / BARC91R
New	Xbarc1024-2B {10124}	2BS	BARC1024F/ BARC1024R
New	Xbarc1072-2B {10124}	2BS	BARC1072F/ BARC1072R
New	Xbarc1114-2B {10124}	2BS	BARC1114F/ BARC1114R
New	Xbarc1142-2B {10124}	2BS	BARC1142F/ BARC1142R
New	Xbarc230-2B {10124}	2BS	BARC230F / BARC230R
New	Xbarc35-2B {10124}	2BS	BARC35F / BARC35R
New	Xbarc55-2B {10124}	2BS	BARC55F / BARC55R
Change 2BL to 2BS	Xgwm374-2B {10126}	2BS	WMS374F / WMS374R
Change 2BL to 2BS	Xgwm319-2B {10126}	2BS	WMS319F / WMS319R
Group 2BL
Add reference	Xbarc101-2B {10124}	2BL	BARC101F / BARC101R
Add reference	Xbarc128-2B {10124}	2BL	BARC128F / BARC128R
New	Xbarc1027-2B {10124}	2BL	BARC1027F/ BARC1027R
New	Xbarc1042-2B {10124}	2BL	BARC1042F / BARC1042R
New	Xbarc1108-2B {10124}	2BL	BARC1108F / BARC1108R
New	Xbarc1135-2B {10124}	2BL	BARC1135F / BARC1135R
New	Xbarc1139-2B {10124}	2BL	BARC1139F / BARC1139R
New	Xbarc114-2B {10124}	2BL	BARC114F / BARC114R
New	Xbarc1147-2B {10124}	2BL	BARC1147F / BARC1147R
New	Xbarc115-2B {10124}	2BL	BARC115F / BARC115R
New	Xbarc1156-2B {10124}	2BL	BARC1156F / BARC1156R
New	Xbarc1160-2B {10124}	2BL	BARC1160F / BARC1160R
New	Xbarc150-2B {10124}	2BL	BARC150F / BARC150R
New	Xbarc16-2B {10124}	2BL	BARC16F / BARC16R
New	Xbarc167-2B {10124}	2BL	BARC167F / BARC167R
New	Xbarc210-2B {10124}	2BL	BARC210F / BARC210R
New	Xbarc221-2B {10124}	2BL	BARC221F / BARC221R
Change 2B to 2BL	Xcfd25-2B {10126}	2BL	CFD25F / CFD25R
Add to 2DL	Xcfd50-2B {10126}	2BL	CFD50F / CFD50R
Change 2BS to 2BL	Xcfd73-2B {10126}	2BL	CFD73F / CFD73R
Group 2B
New	Xbarc10-2B {10125}	2B	BARC10F / BARC10R
New	Xbarc1064-2B {10124}	2B	BARC1064F / BARC1064R
New	Xbarc1154-2B {10124}	2B	BARC1154F / BARC1154R
New	Xbarc116-2B {10124}	2B	BARC116F / BARC116R
New	Xbarc124-2B {10125}	2B	BARC124F / BARC124R
New	Xbarc159-2B {10125}	2B	BARC159F / BARC159R
New	Xbarc183-2B {10125}	2B	BARC183F / BARC183R
New	Xbarc45-2B {10125}	2B	BARC45F / BARC45R
New	Xbarc98-2B {10125}	2B	BARC98F / BARC98R
New	Xcfd70-2B {10125}	2B	CFD70F / CFD70R
New	Xgwm132-2B {10125}	2B	WMS132F / WMS132R
New	Xwmc261-2B {10125}	2B	WMC261F / WMC261R
New	Xwmc27-2B {10125}	2B	WMC27F / WMC27R
New	Xwmc356-2B {10125}	2B	WMC356F / WMC356R
New	Xwmc382-2B {10125}	2B	WMC382F / WMC382R
New	Xwmc489-2B {10125}	2B	WMC489F / WMC489R
New	Xwmc498-2B {10125}	2B	WMC498F / WMC498R
New	Xwmc500-2B {10125}	2B	WMC500F / WMC500R
New	Xwmc592-2B {10125}	2B	WMC592F / WMC592R
New	Xwmc597-2B {10125}	2B	WMC597F / WMC597R
New	Xwmc602-2B {10125}	2B	WMC602F / WMC602R
New	Xwmc627-2B {10125}	2B	WMC627F / WMC627R
New	Xwmc661-2B {10125}	2B	WMC661F / WMC661R
New	Xwmc764-2B {10125}	2B	WMC764F / WMC764R
New	Xwmc770-2B {10125}	2B	WMC770F / WMC770R
New	Xwmc817-2B {10125}	2B	WMC817F / WMC817R
Group 2DS
Add reference	Xbarc124-2D {10124}	2DS	BARC124F / BARC124R
Add reference	Xbarc168-2D {10124}	2DS	BARC168F / BARC168R
Add reference	Xbarc297-2D {10124}	2DS	BARC297F / BARC297R
New	Xbarc1070-2D {10124}	2DS	BARC1070F / BARC1070R
New	Xbarc1146-2D {10124}	2DS	BARC1146F / BARC1146R
New	Xbarc95-2D {10124}	2DS	BARC95F / BARC95R
New	Xcfd175-2D {10126}	2DS	CFD175F / CFD175R
New	Xcnl1-2D {10126}	2DS	CNL1F / CNL1R
New	Xcnl3-2D {10126}	2DS	CNL3F / CNL3R
Add to 2AS	Xgdm5-2D {10126}	2DS	DMS5F / DMS5R
Change 2D to 2DS	Xgdm77-2D {10126}	2DS	DMS77F / DMS77R
Group 2DL
Add reference	Xbarc11-2D {10124}	2DL	BARC11F / BARC11R
Add reference	Xbarc145-2D {10124}	2DL	BARC145F / BARC145R
Add reference	Xbarc159-2D {10124}	2DL	BARC159F / BARC159R
Add reference	Xbarc219-2D {10124}	2DL	BARC219F / BARC219R
Add reference	Xbarc228-2D {10124}	2DL	BARC228F / BARC228R
Add reference	Xbarc292-2D {10124}	2DL	BARC292F / BARC292R
New	Xbarc1095-2D {10124}	2DL	BARC1095F / BARC1095R
New	Xbarc1143-2D {10124}	2DL	BARC1143F / BARC1143R
Add to 2DL	Xcfd267-2D {10126}	2DL	CFD267F / CFD267R
Group 2D
New	Xbarc103-2D {10124}	2D	BARC103F / BARC103R
New	Xbarc112-2D {10124}	2D	BARC112F / BARC112R
New	Xbarc1153-2D {10124}	2D	BARC1153F / BARC1153R
New	Xbarc235-2D {10124}	2D	BARC235F / BARC235R
New	Xbarc59-2D {10125}	2D	BARC59F / BARC59R
New	Xbarc90-2D {10125}	2D	BARC90F / BARC90R
New	Xcfd193-2D {10125}	2D	CFD193F / CFD193R
New	Xcfd65-2D {10125}	2D	CFD65F / CFD65R
New	Xgwm122-2D {10125}	2D	WMS122F / WMS122R
New	Xwmc144-2D {10125}	2D	WMC144F / WMC144R
New	Xwmc601-2D {10125}	2D	WMC601F / WMC601R
New	Xwmc630-2D {10125}	2D	WMC630F / WMC630R
New	Xwmc797-2D {10125}	2D	WMC797F / WMC797R
New	Xwmc817-2D {10125}	2D	WMC817F / WMC817R
New	Xwmc818-2D {10125}	2D	WMC818F / WMC818R
Group 3AS
Add reference	Xbarc12-3A {10124}	3AS	BARC12F / BARC12R
Add reference	Xbarc179-3A {10124}	3AS	BARC179F / BARC179R
Add reference	Xbarc19-3A {10124}	3AS	BARC19F / BARC19R
Add reference	Xbarc294-3A {10124}	3AS	BARC294F / BARC294R
Add reference	Xbarc310-3A {10124}	3AS	BARC310F / BARC310R
Add reference	Xbarc321-3A {10124}	3AS	BARC321F / BARC321R
Add reference	Xbarc324-3A {10124}	3AS	BARC324F / BARC324R
Add reference	Xbarc356-3A {10124}	3AS	BARC356F / BARC356R
Correct	Xbarc45-3A {10124}	3AS	BARC45F / BARC45R
Correct	Xbarc57.1-3A {10124}	3AS	BARC57.1F / BARC57.1R
Add reference	Xbarc67-3A {10124}	3AS	BARC67F / BARC67R
New	Xbarc1171-3A {10124}	3AS	BARC1171F / BARC1171R
New	Xbarc54-3A {10124}	3AS	BARC54F / BARC54R
New	Xbarc86-3A {10124}	3AS	BARC86F / BARC86R
Group 3AL
Add reference	Xbarc197-3A {10124}	3AL	BARC197F / BARC197R
Add reference	Xbarc25-3A {10124}	3AL	BARC25F / BARC25R
Correct	Xbarc284-3A {10124}	3AL	BARC284F / BARC284R
Add reference	Xbarc314-3A {10124}	3AL	BARC314F / BARC314R
New	Xbarc1021-3A {10124}	3AL	BARC1021F / BARC1021R
New	Xbarc1040-3A {10126}	3AL	BARC1040F / BARC1040R
New	Xbarc105-3A {10124}	3AL	BARC105F / BARC105R
New	Xbarc1060-3A {10124}	3AL	BARC1060F / BARC1060R
New	Xbarc1099-3A {10124}	3AL	BARC1099F / BARC1099R
New	Xbarc1113-3A {10124}	3AL	BARC1113F / BARC1113R
New	Xbarc1177-3A {10124}	3AL	BARC1177F / BARC1177R
New	Xbarc1193-3A {10124}	3AL	BARC1193F / BARC1193R
New	Xbarc150-3A {10124}	3AL	BARC150F / BARC150R
New	Xbarc164-3A {10126}	3AL	BARC164F / BARC164R
New	Xbarc193-3A {10124}	3AL	BARC193F / BARC193R
New	Xbarc51-3A {10124}	3AL	BARC51F / BARC51R
New	Xbarc57.2-3A {10124}	3AL	BARC57.2F / BARC57.2R
New	Xcfa2037-3A {10126}	3AL	CFA2037F / CFA2037R
New	Xcfa2076-3A {10126}	3AL	CFA2076F / CFA2076R
New	Xcfa2183-3A {10126}	3AL	CFA2183F / CFA2183R
Add to 3DL	Xcnl4-3A {10126}	3AL	CNL4F / CNL4R
Add to 3BL, 3DL	Xgwm114-3A {10126}	3AL	WMS114F / WMS114R
New	Xgwm674-3A {10126}	3AL	WMS674F / WMS674R
Change 3AS to 3AL	Xgwm218-3A {10126}	3AL	WMS218F / WMS218R
Change 3AS to 3AL	Xgwm32-3A {10126}	3AL	WMS32F / WMS32R
Change 3AS to 3AL	Xgwm5-3A {10126}	3AL	WMS5F / WMS5R
Add to 2BS, 2BL	Xwmc175-3A {10126}	3AL	WMC175F / WMC175R
Group 3A
New	Xbarc1040-3A {10126}	3A	BARC1040F / BARC1040R
New	Xbarc112-3A {10124}	3A	BARC112F / BARC112R
New	Xbarc1159-3A {10124}	3A	BARC1159F / BARC1159R
New	Xbarc215-3A {10124}	3A	BARC215F / BARC215R
New	Xbarc69-3A {10125}	3A	BARC69F / BARC69R
New	Xcfa2076-3A {10125}	3A	CFA2076F / CFA2076R
New	Xcfd193-3A {10125}	3A	CFD193F / CFD193R
New	Xgwm133-3A {10125}	3A	WMS133F / WMS133R
New	Xgwm403-3A {10125}	3A	WMS403F / WMS403R
New	Xgwm4-3A {10125}	3A	WMS4F / WMS4R
New	Xgwm494-3A {10125}	3A	WMS494F / WMS494R
New	Xgwm674-3A {10125}	3A	WMS674F / WMS674R
New	Xwmc173-3A {10125}	3A	WMC173F / WMC173R
New	Xwmc215-3A {10125}	3A	WMC215F / WMC215R
New	Xwmc532-3A {10125}	3A	WMC532F / WMC532R
New	Xwmc559-3A {10125}	3A	WMC559F / WMC559R
New	Xwmc594-3A {10125}	3A	WMC594F / WMC594R
New	Xwmc627-3A {10125}	3A	WMC627F / WMC627R
New	Xwmc640-3A {10125}	3A	WMC640F / WMC640R
New	Xwmc651-3A {10125}	3A	WMC651F / WMC651R
New	Xwmc664-3A {10125}	3A	WMC664F / WMC664R
New	Xwmc695-3A {10125}	3A	WMC695F / WMC695R
New	Xwmc96-3A {10125}	3A	WMC96F / WMC96R
Group 3BS
Add reference	Xbarc102-3B {10124}	3BS	BARC102F / BARC102R
Add reference	Xbarc133-3B {10124}	3BS	BARC133F / BARC133R
Add reference	Xbarc147-3B {10124}	3BS	BARC147F / BARC147R
Add reference	Xbarc218-3B {10124}	3BS	BARC218F / BARC218R
Add reference	Xbarc75-3B {10124}	3BS	BARC75F / BARC75R
New	Xbarc139-3B {10124}	3BS	BARC139F / BARC139R
New	Xbarc156-3B {10124}	3BS	BARC156F / BARC156R
New	Xbarc68-3B {10124}	3BS	BARC68F / BARC68R
New	Xbarc73-3B {10124}	3BS	BARC73F / BARC73R
New	Xbarc87-3B {10124}	3BS	BARC87F / BARC87R
New	Xcfa2191-3B {10126}	3BS	CFA2191F / CFA2191R
Add to 1AS	Xcfa2226-3B {10126}	3BS	CFA2226F / CFA2226R
New	Xcfd143-3B {10126}	3BS	CFD143F / CFD143R
Change 3BL to 3BS	Xgwm566-3B {10126}	3BS	WMS566F / WMS566R
Group 3BL
Add reference	Xbarc164-3B {10124}	3BL	BARC164F / BARC164R
Add reference	Xbarc344-3B {10124}	3BL	BARC344F / BARC344R
Add reference	Xbarc84-3B {10124}	3BL	BARC84F / BARC84R
New	Xbarc1044-3B {10124}	3BL	BARC1044F / BARC1044R
New	Xbarc1077-3B {10124}	3BL	BARC1077F / BARC1077R
New	Xbarc1124-3B {10124}	3BL	BARC1124F / BARC1124R
New	Xbarc115-3B {10124}	3BL	BARC115F / BARC115R
New	Xbarc203-3B {10124}	3BL	BARC203F / BARC203R
New	Xbarc77-3B {10124}	3BL	BARC77F / BARC77R
Change 3BS to 3BL	Xgpw1146-3B {10126}	3BL	GPW1146F / GPW1146R
Change 3BS to 3BL	Xgwm376-3B {10126}	3BL	WMS376F / WMS376R
Add to 1DS	Xcfa2170-3B {10126}	3BL	CFA2170F / CFA2170R
Group 3B
New	Xbarc101-3B {10113}	3B	BARC101F / BARC101R
New	Xbarc1040-3B {10126}	3B	BARC1040F / BARC1040R
New	Xbarc112-3B {10124}	3B	BARC112F / BARC112R
New	Xbarc131-3B {10124}	3B	BARC131F / BARC131R
New	Xbarc135-3B {10126}	3B	BARC135F / BARC135R
New	Xbarc145-3B {10125}	3B	BARC145F / BARC145R
New	Xbarc173-3B {10125}	3B	BARC173F / BARC173R
New	Xbarc180-3B {10125}	3B	BARC180F / BARC180R
New	Xbarc206-3B {10125}	3B	BARC206F / BARC206R
New	Xbarc229-3B {10125}	3B	BARC229F / BARC229R
New	Xbarc234-3B {10124}	3B	BARC234F / BARC234R
New	Xbarc92-3B {10125}	3B	BARC92F / BARC92R
New	Xcfa2134-3B {10125}	3B	CFA2134 F / CFA2134R
New	Xcfa2170-3B {10125}	3B	CFA2170F / CFA2170R
New	Xcfd283-3B {10125}	3B	CFD283F / CFD283R
New	Xcfd28-3B {10125}	3B	CFD28F / CFD28R
New	Xcfd6-3B {10125}	3B	CFD6F / CFD6R
New	Xgwm274-3B {10125}	3B	WMS274F / WMS274R
New	Xgwm644-3B {10125}	3B	WMS644F / WMS644R
New	Xwmc1-3B {10125}	3B	WMC1F / WMC1R
New	Xwmc182-3B {10125}	3B	WMC182F / WMC182R
New	Xwmc206-3B {10125}	3B	WMC206F / WMC206R
New	Xwmc261-3B {10125}	3B	WMC261F / WMC261R
New	Xwmc274-3B {10125}	3B	WMC274F / WMC274R
New	Xwmc307-3B {10125}	3B	WMC307F / WMC307R
New	Xwmc430-3B {10125}	3B	WMC430F / WMC430R
New	Xwmc446-3B {10125}	3B	WMC446F / WMC446R
New	Xwmc51-3B {10125}	3B	WMC51F / WMC51R
New	Xwmc533-3B {10125}	3B	WMC533F / WMC533R
New	Xwmc544-3B {10125}	3B	WMC544F / WMC544R
New	Xwmc597-3B {10125}	3B	WMC597F / WMC597R
New	Xwmc612-3B {10125}	3B	WMC612F / WMC612R
New	Xwmc615-3B {10125}	3B	WMC615F / WMC615R
New	Xwmc623-3B {10125}	3B	WMC623F / WMC623R
New	Xwmc625-3B {10125}	3B	WMC625F / WMC625R
New	Xwmc632-3B {10125}	3B	WMC632F / WMC632R
New	Xwmc653-3B {10125}	3B	WMC653F / WMC653R
New	Xwmc674-3B {10125}	3B	WMC674F / WMC674R
New	Xwmc675-3B {10125}	3B	WMC675F / WMC675R
New	Xwmc679-3B {10125}	3B	WMC679F / WMC679R
New	Xwmc687-3B {10125}	3B	WMC687F / WMC687R
New	Xwmc693-3B {10125}	3B	WMC693F / WMC693R
New	Xwmc695-3B {10125}	3B	WMC695F / WMC695R
New	Xwmc751-3B {10125}	3B	WMC751F / WMC751R
New	Xwmc754-3B {10125}	3B	WMC754F / WMC754R
New	Xwmc762-3B {10125}	3B	WMC762F / WMC762R
New	Xwmc777-3B {10125}	3B	WMC777F / WMC777R
New	Xwmc787-3B {10125}	3B	WMC787F / WMC787R
New	Xwmc808-3B {10125}	3B	WMC808F / WMC808R
New	Xwmc815-3B {10125}	3B	WMC815F / WMC815R
New	Xwmc827-3B {10125}	3B	WMC827F / WMC827R
Group 3DS
Add reference	Xbarc321-3D {10124}	3DS	BARC321F / BARC321R
Add to 3DL	Xbarc6-3D {10124}	3DS	BARC6F / BARC6R
Add reference	Xbarc8-3D {10124}	3DS	BARC8F / BARC8R
New	Xbarc1040-3D {10124}	3DS	BARC1040F / BARC1040R
New	Xbarc1119-3D {10124}	3DS	BARC1119F / BARC1119R
New	Xbarc132-3D {10124}	3DS	BARC132F / BARC132R
New	Xbarc135-3D {10124}	3DS	BARC135F / BARC135R
New	Xbarc150-3D {10124}	3DS	BARC150F / BARC150R
Change 3DL to 3DS	Xcfd2-3D {10126}	3DS	CFD2F / CFD2R
Change 3DL to 3DS	Xgpw1168-3D {10126}	3DS	GPW1168F / GPW1168R
Change 3DL to 3DS	Xgwm341-3D {10126}	3DS	WMS341F / WMS341R
Group 3DL
Add reference	Xbarc270-3D {10124}	3DL	BARC270F / BARC270R
Add reference	Xbarc323-3D {10124}	3DL	BARC323F / BARC323R
Add reference	Xbarc42-3D {10124}	3DL	BARC42F / BARC42R
New	Xbarc1162-3D {10124}	3DL	BARC1162F / BARC1162R
New	Xbarc71-3D {10124}	3DL	BARC71F / BARC71R
Group 3D
New	Xbarc1161-3D {10124}	3D	BARC1161F / BARC1161R
New	Xbarc125-3D {10125}	3D	BARC125F / BARC125R
New	Xbarc128-3D {10125}	3D	BARC128F / BARC128R
New	Xbarc226-3D {10124}	3D	BARC226F / BARC226R
New	Xbarc52-3D {10125}	3D	BARC52F / BARC52R
New	Xbarc68-3D {10125}	3D	BARC68F / BARC68R
New	Xcfd193-3D {10125}	3D	CFD193F / CFD193R
New	Xcfd62-3D {10125}	3D	CFD62F / CFD62R
New	Xcfd71-3D {10125}	3D	CFD71F / CFD71R
New	Xgdm136-3D {10125}	3D	DMS136F / DMS136R
New	Xgdm99-3D {10125}	3D	DMS99F / DMS99R
New	Xgwm191-3D {10125}	3D	WMS191F / WMS191R
New	Xwmc492-3D {10125}	3D	WMC492F / WMC492R
New	Xwmc549-3D {10125}	3D	WMC549F / WMC549R
New	Xwmc552-3D {10125}	3D	WMC552F / WMC552R
New	Xwmc630-3D {10125}	3D	WMC630F / WMC630R
New	Xwmc631-3D {10125}	3D	WMC631F / WMC631R
New	Xwmc656-3D {10125}	3D	WMC656F / WMC656R
New	Xwmc674-3D {10125}	3D	WMC674F / WMC674R
New	Xwmc741-3D {10125}	3D	WMC741F / WMC741R
Group 4AS
Add reference	Xbarc206-4A {10124}	4AS	BARC206F / BARC206R
New	Xbarc1052-4A {10124}	4AS	BARC1052F / BARC1052R
New	Xbarc1137-4A {10124}	4AS	BARC1137F / BARC1137R
New	Xbarc155-4A {10124}	4AS	BARC155F / BARC155R
New	Xbarc224-4A {10124}	4AS	BARC224F / BARC224R
New	Xcfa2256-4A {10126}	4AS	CFA2256F / CFA2256R
New	Xcfa2026-4A {10126}	4AS	CFA2026F / CFA2026R
Add to 7DS, 7AL	Xcfa2174-4A {10126}	4AS	CFA2174F / CFA2174R
Add to 2AL	Xcfa2121-4A {10126}	4AS	CFA2121F / CFA2121R
Change 4A to 4AS	Xcfd16-4A {10126}	4AS	CFD16F / CFD16R
Group 4AL
Change 4AS to 4AL	Xbarc106-4A {10124{10126}	4AL	BARC106F / BARC106R
Add reference	Xbarc153-4A {10124}	4AL	BARC153F / BARC153R
Add reference	Xbarc170-4A {10124}	4AL	BARC170F / BARC170R
Add reference	Xbarc184-4A {10124}	4AL	BARC184F / BARC184R
Add reference	Xbarc315-4A {10124}	4AL	BARC315F / BARC315R
Add reference	Xbarc327-4A {10124}	4AL	BARC327F / BARC327R
Add reference	Xbarc343-4A {10124}	4AL	BARC343F / BARC343R
Add reference	Xbarc52-4A {10124}	4AL	BARC52F / BARC52R
Add reference	Xbarc70-4A {10124}	4AL	BARC70F / BARC70R
Add reference	Xbarc78-4A {10124}	4AL	BARC78F / BARC78R
New	Xbarc1047-4A {10124}	4AL	BARC1047F / BARC1047R
Add to 4D	Xcfa2173-4A {10126}	4AL	CFA2173F / CFA2173R
Add to 7DS	Xcfd31-4A {10126}	4AL	CFD31F / CFD31R
Change 4AS to 4AL	Xgwm601-4A {10126}	4AL	WMS601F / WMS601R
Add to 7DS	Xgpw1142-4A {10126}	4AL	GPW1142F / GPW1142R
Group 4A
Add reference	Xbarc138-4A {10124}	4A	BARC138F / BARC138R
New	Xbarc1070-4A {10124}	4A	BARC1070F / BARC1070R
New	Xbarc190-4A {10124}	4A	BARC190F / BARC190R
New	Xbarc216-4A {10124}	4A	BARC216F / BARC216R
New	Xbarc233-4A {10124}	4A	BARC233F / BARC233R
New	Xcfa2256-4A {10125}	4A	CFA2256F / CFA2256R
New	Xcfd30-4A {10125}	4A	CFD30F / CFD30R
New	Xgwm162-4A {10125}	4A	WMS162F / WMS162R
New	Xgwm44-4A {10125}	4A	WMS44F / WMS44R
New	Xgwm494-4A {10125}	4A	WMS494F / WMS494R
New	Xgwm565-4A {10125}	4A	WMS565F / WMS565R
New	Xwmc15-4A {10125}	4A	WMC15F / WMC15R
New	Xwmc446-4A {10125}	4A	WMC446F / WMC446R
New	Xwmc516-4A {10125}	4A	WMC516F / WMC516R
New	Xwmc597-4A {10125}	4A	WMC597F / WMC597R
New	Xwmc617-4A {10125}	4A	WMC617F / WMC617R
New	Xwmc650-4A {10125}	4A	WMC650F / WMC650R
New	Xwmc680-4A {10125}	4A	WMC680F / WMC680R
New	Xwmc698-4A {10125}	4A	WMC698F / WMC698R
New	Xwmc707-4A {10125}	4A	WMC707F / WMC707R
New	Xwmc718-4A {10125}	4A	WMC718F / WMC718R
New	Xwmc722-4A {10125}	4A	WMC722F / WMC722R
New	Xwmc757-4A {10125}	4A	WMC757F / WMC757R
New	Xwmc760-4A {10125}	4A	WMC760F / WMC760R
New	Xwmc776-4A {10125}	4A	WMC776F / WMC776R
Group 4BS
Add reference	Xbarc193-4B {10124}	4BS	BARC193F / BARC193R
Add reference	Xbarc292-4B {10124}	4BS	BARC292F / BARC292R
New	Xbarc1001-4B {10124}	4BS	BARC1001F / BARC1001R
New	Xbarc1045-4B {10124}	4BS	BARC1045F / BARC1045R
New	Xbarc20-4B {10124}	4BS	BARC20F / BARC20R
Group 4BL
Add reference	Xbarc163-4B {10124}	4BL	BARC163F / BARC163R
Add reference	Xbarc60-4B {10124}	4BL	BARC60F / BARC60R
New	Xbarc1096-4B {10124}	4BL	BARC1096F / BARC1096R
New	Xbarc114-4B {10124}	4BL	BARC114F / BARC114R
New	Xbarc1174-4B {10124}	4BL	BARC1174F / BARC1174R
New	Xbarc199-4B {10124}	4BL	BARC199F / BARC199R
New	Xbarc227-4B {10124}	4BL	BARC227F / BARC227R
Group 4B
New	Xbarc10-4B {10125}	4B	BARC10F / BARC10R
New	Xbarc109-4B {10125}	4B	BARC109F / BARC109R
New	Xbarc1142-4B {10124}	4B	BARC1142F / BARC1142R
New	Xbarc25-4B {10125}	4B	BARC25F / BARC25R
New	Xbarc68-4B {10125}	4B	BARC68F / BARC68R
New	Xcfd2-4B {10125}	4B	CFD2F / CFD2R
New	Xgwm112-4B {10125}	4B	WMS112F /WMS112R
New	Xgwm193-4B {10125}	4B	WMS193F /WMS193R
New	Xgwm261-4B {10125}	4B	WMS261F /WMS261R
New	Xgwm540-4B {10125}	4B	WMS540F /WMS540R
New	Xgwm664-4B {10125}	4B	WMS664F /WMS664R
New	Xwmc16-4B {10125}	4B	WMC16F /WMC16R
New	Xwmc413-4B {10125}	4B	WMC413F /WMC413R
New	Xwmc419-4B {10125}	4B	WMC419F /WMC419R
New	Xwmc546-4B {10125}	4B	WMC546F /WMC546R
New	Xwmc617-4B {10125}	4B	WMC617F /WMC617R
New	Xwmc652-4B {10125}	4B	WMC652F /WMC652R
New	Xwmc657-4B {10125}	4B	WMC657F /WMC657R
New	Xwmc679-4B {10125}	4B	WMC679F /WMC679R
New	Xwmc692-4B {10125}	4B	WMC692F /WMC692R
New	Xwmc695-4B {10125}	4B	WMC695F /WMC695R
New	Xwmc710-4B {10125}	4B	WMC710F /WMC710R
New	Xwmc826-4B {10125}	4B	WMC826F /WMC826R
Group 4DS
Add arm	Xbarc288-4D {10124}	4DS	BARC288F / BARC288R
Add reference	Xbarc217-4D {10124}	4DS	BARC217F / BARC217R
Add reference	Xbarc225.1-4D {10124}	4DS	BARC225.1F / BARC225.1R
Add reference	Xbarc308-4D {10124}	4DS	BARC308F / BARC308R
Add reference	Xbarc334-4D {10124}	4DS	BARC334F / BARC334R
Add reference	Xbarc98-4D {10124}	4DS	BARC98F / BARC98R
New	Xbarc105-4D {10124}	4DS	BARC105F / BARC105R
New	Xbarc1118-4D {10124}	4DS	BARC1118F / BARC1118R
Group 4DL
Add reference	Xbarc48-4D {10124}	4DL	BARC48F / BARC48R
New	Xbarc1069-4D {10124}	4DL	BARC1069F / BARC1069R
New	Xbarc114-4D {10124}	4DL	BARC114F / BARC114R
New	Xbarc1148-4D {10124}	4DL	BARC1148F / BARC1148R
New	Xbarc1183-4D {10124}	4DL	BARC1183F / BARC1183R
New	Xbarc225.2-4D {10124}	4DL	BARC225.2F / BARC225.2R
New	Xbarc93-4D {10124}	4DL	BARC93F / BARC93R
Group 4D
New	Xbarc1145-4D {10124}	4D	BARC1145F / BARC1145R
New	Xbarc27-4D {10124}	4D	BARC27F / BARC27R
New	Xbarc91-4D {10125}	4D	BARC91F / BARC91R
New	Xcfd160-4D {10125}	4D	CFD160F / CFD160R
New	Xgwm133-4D {10125}	4D	WMS133F / WMS133R
New	Xgwm193-4D {10125}	4D	WMS193F / WMS193R
New	Xgwm213-4D {10125}	4D	WMS213F / WMS213R
New	Xwmc182-4D {10125}	4D	WMC182F / WMC182R
New	Xwmc33-4D {10125}	4D	WMC33F / WMC33R
New	Xwmc489-4D {10125}	4D	WMC489F / WMC489R
New	Xwmc617-4D {10125}	4D	WMC617F / WMC617R
New	Xwmc622-4D {10125}	4D	WMC622F / WMC622R
New	Xwmc720-4D {10125}	4D	WMC720F / WMC720R
New	Xwmc818-4D {10125}	4D	WMC818F / WMC818R
New	Xwmc825-4D {10125}	4D	WMC825F / WMC825R
Group 5AS
Add reference	Xbarc186.1-5A {10124}	5AS	BARC186.1F / BARC186.1R
Add reference	Xbarc117-5A {10124}	5AS	BARC117F / BARC117R
Add reference	Xbarc122.1-5A {10124}	5AS	BARC122.1F / BARC122.1R
Add reference	Xbarc180-5A {10124}	5AS	BARC180F / BARC180R
Add reference	Xbarc303-5A {10124}	5AS	BARC303F / BARC303R
Add reference	Xbarc316-5A {10124}	5AS	BARC316F / BARC316R
New	Xbarc56-5A {10124}	5AS	BARC56F / BARC56R
Group 5AL
Add reference	Xbarc1-5A {10124}	5AL	BARC1F / BARC1R
Add reference	Xbarc100-5A {10124}	5AL	BARC100F / BARC100R
Add reference	Xbarc141-5A {10124}	5AL	BARC141F / BARC141R
Add reference	Xbarc151-5A {10124}	5AL	BARC151F / BARC151R
Add reference	Xbarc165-5A {10124}	5AL	BARC165F / BARC165R
Add reference	Xbarc197-5A {10124}	5AL	BARC197F / BARC197R
Add reference	Xbarc230-5A {10124}	5AL	BARC230F / BARC230R
Add reference	Xbarc319-5A {10124}	5AL	BARC319F / BARC319R
Add reference	Xbarc330-5A {10124}	5AL	BARC330F / BARC330R
Add reference	Xbarc360-5A {10124}	5AL	BARC360F / BARC360R
Add reference	Xbarc40-5A {10124}	5AL	BARC40F / BARC40R
New	Xbarc1135-5A {10124}	5AL	BARC1135F / BARC1135R
New	Xbarc115-5A {10124}	5AL	BARC115F / BARC115R
New	Xbarc1158-5A {10124}	5AL	BARC1158F / BARC1158R
New	Xbarc1182-5A {10124}	5AL	BARC1182F / BARC1182R
New	Xbarc122.2-5A {10124}	5AL	BARC122.2F / BARC122.2R
New	Xbarc144-5A {10124}	5AL	BARC144F / BARC144R
New	Xbarc155-5A {10124}	5AL	BARC155F / BARC155R
New	Xbarc186.2-5A {10124}	5AL	BARC186.2F / BARC186.2R
New	Xbarc207-5A {10124}	5AL	BARC207F / BARC207R
New	Xbarc92-5A {10124}	5AL	BARC92F / BARC92R
New	Xbarc94-5A {10124}	5AL	BARC94F / BARC94R
Group 5A
New	Xbarc10-5A {10125}	5A	BARC10F / BARC10R
New	Xbarc232-5A {10125}	5A	BARC232F / BARC232R
New	Xcfa2104-5A {10125}	5A	CFA2104F / CFA2104R
New	Xcfa2121-5A {10125}	5A	CFA2121F / CFA2121R
New	Xcfa2185-5A {10125}	5A	CFA2185F / CFA2185R
New	Xcfa2250-5A {10125}	5A	CFA2250F / CFA2250R
New	Xcfd2-5A {10125}	5A	CFD2F / CFD2R
New	Xgwm96-5A {10125}	5A	WMS96F / WMS96R
New	Xwmc445-5A {10125}	5A	WMC445F / WMC445R
New	Xwmc446-5A {10125}	5A	WMC446F / WMC446R
New	Xwmc475-5A {10125}	5A	WMC475F / WMC475R
New	Xwmc47-5A {10125}	5A	WMC47F / WMC47R
New	Xwmc492-5A {10125}	5A	WMC492F / WMC492R
New	Xwmc51-5A {10125}	5A	WMC51F / WMC51R
New	Xwmc524-5A {10125}	5A	WMC524F / WMC524R
New	Xwmc577-5A {10125}	5A	WMC577F / WMC577R
New	Xwmc630-5A {10125}	5A	WMC630F / WMC630R
New	Xwmc654-5A {10125}	5A	WMC654F / WMC654R
New	Xwmc705-5A {10125}	5A	WMC705F / WMC705R
New	Xwmc713-5A {10125}	5A	WMC713F / WMC713R
New	Xwmc727-5A {10125}	5A	WMC727F / WMC727R
New	Xwmc752-5A {10125}	5A	WMC752F / WMC752R
New	Xwmc795-5A {10125}	5A	WMC795F / WMC795R
New	Xwmc805-5A {10125}	5A	WMC805F / WMC805R
Group 5BS
Add reference	Xbarc216-5B {10124}	5BS	BARC216F / BARC216R
Add reference	Xbarc32.1-5B {10124}	5BS	BARC32.1F / BARC32.1R
Add reference	Xbarc340-5B {10124}	5BS	BARC340F / BARC340R
Add reference	Xbarc4-5B {10124}	5BS	BARC4F / BARC4R
New	Xbarc1120-5B {10124}	5BS	BARC1120F / BARC1120R
Group 5BL
Add reference	Xbarc140-5B {10124}	5BL	BARC140F / BARC140R
Add reference	Xbarc142-5B {10124}	5BL	BARC142F / BARC142R
Add reference	Xbarc156-5B {10124}	5BL	BARC156F / BARC156R
Add reference	Xbarc232-5B {10124}	5BL	BARC232F / BARC232R
Add reference	Xbarc308-5B {10124}	5BL	BARC308F / BARC308R
Add reference	Xbarc59-5B {10124}	5BL	BARC59F / BARC59R
Add reference	Xbarc69-5B {10124}	5BL	BARC69F / BARC69R
Add reference	Xbarc74-5B {10124}	5BL	BARC74F / BARC74R
Add reference	Xbarc89-5B {10124}	5BL	BARC89F / BARC89R
New	Xbarc1032-5B {10124}	5BL	BARC1032F / BARC1032R
New	Xbarc1061-5B {10124}	5BL	BARC1061F / BARC1061R
New	Xbarc11-5B {10124}	5BL	BARC11F / BARC11R
New	Xbarc1172-5B {10124}	5BL	BARC1172F / BARC1172R
New	Xbarc243-5B {10124}	5BL	BARC243F / BARC243R
New	Xbarc32.2-5B {10124}	5BL	BARC32.2F / BARC32.2R
New	Xbarc58-5B {10124}	5BL	BARC58F / BARC58R
New	Xbarc88-5B {10124}	5BL	BARC88F / BARC88R
New	Xfcc1 {10207}	5BL	Probe FCC1
New	Xfcc2 {10207}	5BL	Probe FCC2
New	Xfcc3 {10207}	5BL	Probe FCC3
New	Xfcg1 {10207}	5BL	Probe FCG1
New	Xfcg2 {10207}	5BL	Probe FCG2
New	Xfcg3 {10207}	5BL	Probe FCG3
New	Xfcg4 {10207}	5BL	Probe FCG4
New	Xfcg5 {10207}	5BL	Probe FCG5
New	Xfcg6 {10207}	5BL	Probe FCG6
New	Xfcg7 {10207}	5BL	Probe FCG7
New	Xfcg8 {10207}	5BL	Probe FCG8
New	Xfcg9 {10207}	5BL	Probe FCG9
New	Xfcg10 {10207}	5BL	Probe FCG10
New	Xfcg11 {10207}	5BL	Probe FCG11
New	Xfcg12 {10207}	5BL	Probe FCG12
New	Xfcg13 {10207}	5BL	Probe FCG13
New	Xfcg14 {10207}	5BL	Probe FCG14
New	Xfcg15 {10207}	5BL	Probe FCG15
New	Xfcg16 {10207}	5BL	Probe FCG16
New	Xfcg17 {10207}	5BL	Probe FCG17
New	Xfcg19 {10207}	5BL	Probe FCG19
Group 5B
Add reference	Xbarc109-5B {10124}	5B	BARC109F / BARC109R
New	Xbarc21-5B {10125}	5B	BARC21F / BARC21R
New	Xbarc240-5B {10125}	5B	BARC240F / BARC240R
New	Xcfa2121.1-5B {10125}	5B	CFA2121.1F / CFA2121.1R
New	Xcfa2121.2-5B {10125}	5B	CFA2121.2F / CFA2121.2R
New	Xcfd20-5B {10125}	5B	CFD20F / CFD20R
New	Xcfd5-5B {10125}	5B	CFD5F / CFD5R
New	Xcfd60-5B {10125}	5B	CFD60F / CFD60R
New	Xgdm116-5B {10125}	5B	DMS116F / DMS116R
New	Xgwm133-5B {10125}	5B	WMS133F / WMS133R
New	Xwmc160-5B {10125}	5B	WMC160F / WMC160R
New	Xwmc258-5B {10125}	5B	WMC258F / WMC258R
New	Xwmc274-5B {10125}	5B	WMC274F / WMC274R
New	Xwmc326-5B {10125}	5B	WMC326F / WMC326R
New	Xwmc386-5B {10125}	5B	WMC386F / WMC386R
New	Xwmc405-5B {10125}	5B	WMC405F / WMC405R
New	Xwmc430-5B {10125}	5B	WMC430F / WMC430R
New	Xwmc47-5B {10125}	5B	WMC47F / WMC47R
New	Xwmc616-5B {10125}	5B	WMC616F / WMC616R
New	Xwmc630-5B {10125}	5B	WMC630F / WMC630R
New	Xwmc640-5B {10125}	5B	WMC640F / WMC640R
New	Xwmc682-5B {10125}	5B	WMC682F / WMC682R
New	Xwmc728-5B {10125}	5B	WMC728F / WMC728R
New	Xwmc734-5B {10125}	5B	WMC734F / WMC734R
New	Xwmc740-5B {10125}	5B	WMC740F / WMC740R
New	Xwmc745-5B {10125}	5B	WMC745F / WMC745R
New	Xwmc759-5B {10125}	5B	WMC759F / WMC759R
New	Xwmc773-5B {10125}	5B	WMC773F / WMC773R
New	Xwmc783-5B {10125}	5B	WMC783F / WMC783R
New	Xwmc810-5B {10125}	5B	WMC810F / WMC810R
New	Xwmc813-5B {10125}	5B	WMC813F / WMC813R
Group 5DS
Add reference	Xbarc130-5D {10124}	5DS	BARC130F / BARC130R
Add reference	Xbarc143-5D {10124}	5DS	BARC143F / BARC143R
Add reference	Xbarc205-5D {10124}	5DS	BARC205F / BARC205R
Group 5DL
Add reference	Xbarc110-5D {10124}	5DL	BARC110F / BARC110R
Add reference	Xbarc144-5D {10124}	5DL	BARC144F / BARC144R
Add reference	Xbarc177-5D {10124}	5DL	BARC177F / BARC177R
Add reference	Xbarc286-5D {10124}	5DL	BARC286F / BARC286R
Add reference	Xbarc320-5D {10124}	5DL	BARC320F / BARC320R
Add reference	Xbarc347-5D {10124}	5DL	BARC347F / BARC347R
Add reference	Xbarc361-5D {10124}	5DL	BARC361F / BARC361R
Add reference	Xbarc44-5D {10124}	5DL	BARC44F / BARC44R
Add reference	Xbarc93-5D {10124}	5DL	BARC93F / BARC93R
New	Xbarc1002-5D {10124}	5DL	BARC1002F / BARC1002R
New	Xbarc1018-5D {10124}	5DL	BARC1018F / BARC1018R
New	Xbarc133-5D {10126}	5DL	BARC133F / BARC133R
New	Xbarc322-5D {10124}	5DL	BARC322F / BARC322R
Group 5D
New	Xbarc1097-5D {10124}	5D	BARC1097F / BARC1097R
New	Xbarc1117-5D {10124}	5D	BARC1117F / BARC1117R
New	Xbarc140-5D {10125}	5D	BARC140F / BARC140R
New	Xbarc232-5D {10125}	5D	BARC232F / BARC232R
New	Xbarc234-5D {10124}	5D	BARC234F / BARC234R
New	Xbarc49-5D {10125}	5D	BARC49F / BARC49R
New	Xcfd102-5D {10125}	5D	CFD102F / CFD102R
New	Xcfd156-5D {10125}	5D	CFD156F / CFD156R
New	Xcfd183-5D {10125}	5D	CFD183F / CFD183R
New	Xcfd266-5D {10125}	5D	CFD266F / CFD266R
New	Xcfd283-5D {10125}	5D	CFD283F / CFD283R
New	Xcfd37-5D {10125}	5D	CFD37F / CFD37R
New	Xgdm133-5D {10125}	5D	DMS133F / DMS133R
New	Xgdm138-5D {10125}	5D	DMS138F / DMS138R
New	Xgwm159-5D {10125}	5D	WMS159F / WMS159R
New	Xgwm469-5D {10125}	5D	WMS469F / WMS469R
New	Xwmc264-5D {10125}	5D	WMC264F / WMC264R
New	Xwmc405-5D {10125}	5D	WMC405F / WMC405R
New	Xwmc443-5D {10125}	5D	WMC443F / WMC443R
New	Xwmc608-5D {10125}	5D	WMC608F / WMC608R
New	Xwmc630-5D {10125}	5D	WMC630F / WMC630R
New	Xwmc636-5D {10125}	5D	WMC636F / WMC636R
New	Xwmc640-5D {10125}	5D	WMC640F / WMC640R
New	Xwmc765-5D {10125}	5D	WMC765F / WMC765R
New	Xwmc788-5D {10125}	5D	WMC788F / WMC788R
New	Xwmc799-5D {10125}	5D	WMC799F / WMC799R
New	Xwmc805-5D {10125}	5D	WMC805F / WMC805R
New	Xwmc818-5D {10125}	5D	WMC818F / WMC818R
Group 6AS
Add reference	Xbarc3-6A {10124}	6AS	BARC3F / BARC3R
New	Xbarc48-6A {10125}	6AS	BARC48F / BARC48R
Group 6AL
Add arm	Xbarc107-6A {10124}	6AL	BARC107F / BARC107R
Add arm	Xbarc113-6A {10124}	6AL	BARC113F / BARC113R
Add reference	Xbarc104-6A {10124}	6AL	BARC104F / BARC104R
Correct	Xbarc171-6A {10124}	6AL	BARC171F / BARC171R
Correct	Xbarc195-6A {10124}	6AL	BARC195F / BARC195R
Add reference	Xbarc204-6A {10124}	6AL	BARC204F / BARC204R
New	Xbarc1055-6A {10124}	6AL	BARC1055F / BARC1055R
New	Xbarc1165-6A {10124}	6AL	BARC1165F / BARC1165R
New	Xbarc118-6A {10124}	6AL	BARC118F / BARC118R
New	Xbarc165-6A {10126}	6AL	BARC165F / BARC165R
New	Xbarc37-6A {10124}	6AL	BARC37F / BARC37R
Group 6A
New	Xbarc103-6A {10124}	6A	BARC103F / BARC103R
New	Xbarc146-6A {10125}	6A	BARC146F / BARC146R
New	Xbarc206-6A {10125}	6A	BARC206F / BARC206R
New	Xbarc23-6A {10125}	6A	BARC23F / BARC23R
New	Xcfd80-6A {10125}	6A	CFD80F / CFD80R
New	Xgwm132-6A {10125}	6A	WMS132F / WMS132R
New	Xwmc145-6A {10125}	6A	WMC145F / WMC145R
New	Xwmc150-6A {10125}	6A	WMC150F / WMC150R
New	Xwmc182-6A {10125}	6A	WMC182F / WMC182R
New	Xwmc206-6A {10125}	6A	WMC206F / WMC206R
New	Xwmc254-6A {10125}	6A	WMC254F / WMC254R
New	Xwmc398-6A {10125}	6A	WMC398F / WMC398R
New	Xwmc553-6A {10125}	6A	WMC553F / WMC553R
New	Xwmc580-6A {10125}	6A	WMC580F / WMC580R
New	Xwmc59-6A {10125}	6A	WMC59F / WMC59R
New	Xwmc621-6A {10125}	6A	WMC621F / WMC621R
New	Xwmc642-6A {10125}	6A	WMC642F / WMC642R
New	Xwmc672-6A {10125}	6A	WMC672F / WMC672R
New	Xwmc684-6A {10125}	6A	WMC684F / WMC684R
New	Xwmc748-6A {10125}	6A	WMC748F / WMC748R
New	Xwmc753-6A {10125}	6A	WMC753F / WMC753R
New	Xwmc786-6A {10125}	6A	WMC786F / WMC786R
New	Xwmc807-6A {10125}	6A	WMC807F / WMC807R
Group 6BS
New	Xbarc1169-6B {10124}	6BS	BARC1169F / BARC1169R
New	Xbarc134.1-6B {10124}	6BS	BARC134.1F / BARC134.1R
New	Xbarc14-6B {10124}	6BS	BARC14F / BARC14R
New	Xbarc198-6B {10124}	6BS	BARC198F / BARC198R
New	Xbarc211-6B {10124}	6BS	BARC211F / BARC211R
New	Xbarc48-6B {10124}	6BS	BARC48F / BARC48R
Group 6BL
Add reference	Xbarc134.2-6B {10124}	6BL	BARC134.2F / BARC134.2R
Add reference	Xbarc178-6B {10124}	6BL	BARC178F / BARC178R
Add reference	Xbarc24-6B {10124}	6BL	BARC24F / BARC24R
Add reference	Xbarc354-6B {10124}	6BL	BARC354F / BARC354R
New	Xbarc180-6B {10124}	6BL	BARC180F / BARC180R
New	Xbarc223-6B {10124}	6BL	BARC223F / BARC223R
Group 6B
Add reference	Xbarc79-6B {10124}	6B	BARC79F / BARC79R
New	Xbarc1117-6B {10124}	6B	BARC1117F / BARC1117R
New	Xbarc112-6B {10124}	6B	BARC112F / BARC112R
New	Xbarc127-6B {10125}	6B	BARC127F / BARC127R
New	Xbarc136-6B {10124}	6B	BARC136F / BARC136R
New	Xbarc146-6B {10125}	6B	BARC146F / BARC146R
New	Xbarc185-6B {10124}	6B	BARC185F / BARC185R
New	Xbarc76-6B {10125}	6B	BARC76F / BARC76R
New	Xcfa2110-6B {10125}	6B	CFA2110F / CFA2110R
New	Xcfd1-6B {10125}	6B	CFD1F / CFD1R
New	Xgwm273-6B {10125}	6B	WMS273F / WMS273R
New	Xgwm311-6B {10125}	6B	WMS311F / WMS311R
New	Xgwm705-6B {10125}	6B	WMS705F / WMS705R
New	Xwmc152-6B {10125}	6B	WMCF / WMC152R
New	Xwmc179-6B {10125}	6B	WMC179F / WMC179R
New	Xwmc398-6B {10125}	6B	WMC398F / WMC398R
New	Xwmc419-6B {10125}	6B	WMC419F / WMC419R
New	Xwmc473-6B {10125}	6B	WMC473F / WMC473R
New	Xwmc487-6B {10125}	6B	WMC487F / WMC487R
New	Xwmc539-6B {10125}	6B	WMC539F / WMC539R
New	Xwmc597-6B {10125}	6B	WMC597F / WMC597R
New	Xwmc726-6B {10125}	6B	WMC726F / WMC726R
New	Xwmc737-6B {10125}	6B	WMC737F / WMC737R
New	Xwmc748-6B {10125}	6B	WMC748F / WMC748R
New	Xwmc756-6B {10125}	6B	WMC756F / WMC756R
New	Xwmc786-6B {10125}	6B	WMC786F / WMC786R
New	Xwmc79-6B {10125}	6B	WMC79F / WMC79R
Group 6DS
Add reference	Xbarc123-6D {10124}	6DS	BARC123F / BARC123R
Add reference	Xbarc173-6D {10124}	6DS	BARC173F / BARC173R
Add reference	Xbarc183-6D {10124}	6DS	BARC183F / BARC183R
Add reference	Xbarc196-6D {10124}	6DS	BARC196F / BARC196R
Group 6DL
Add reference	Xbarc1121-6D {10124}	6DL	BARC1121F / BARC1121R
Add referente	Xbarc175-6D {10124}	6DL	BARC175F / BARC175R
Correct	Xbarc202-6D {10124}	6DL	BARC202F / BARC202R
Add referente	Xbarc204-6D {10124}	6DL	BARC204F / BARC204R
Add referente	Xbarc21-6D {10124}	6DL	BARC21F / BARC21R
Correct	Xbarc23.1-6D {10124}	6DL	BARC23.1F / BARC23.1R
Correct	Xbarc23.2-6D {10124}	6DL	BARC23.2F / BARC23.2R
Add referente	Xbarc273-6D {10124}	6DL	BARC273F / BARC273R
New	Xbarc1030-6D {10124}	6DL	BARC1030F / BARC1030R
New	Xbarc146-6D {10124}	6DL	BARC146F / BARC146R
New	Xbarc96-6D {10124}	6DL	BARC96F / BARC96R
Group 6D
New	Xbarc1087-6D {10124}	6D	BARC1087F / BARC1087R
New	Xbarc112-6D {10124}	6D	BARC112F / BARC112R
New	Xbarc1145-6D {10124}	6D	BARC1145F / BARC1145R
New	Xbarc5-6D {10125}	6D	BARC5F / BARC5R
New	Xbarc54-6D {10125}	6D	BARC54F / BARC54R
New	Xcfd119-6D {10125}	6D	CFD119F / CFD119R
New	Xcfd1-6D {10125}	6D	CFD1F / CFD1R
New	Xcfd190-6D {10125}	6D	CFD190F / CFD190R
New	Xgwm133-6D {10125}	6D	WMS133F / WMS133R
New	Xwmc469-6D {10125}	6D	WMC469F / WMC469R
New	Xwmc748-6D {10125}	6D	WMC748F / WMC748R
New	Xwmc749-6D {10125}	6D	WMC749F / WMC749R
New	Xwmc753-6D {10125}	6D	WMC753F / WMC753R
New	Xwmc773-6D {10125}	6D	WMC773F / WMC773R
New	Xwmc786-6D {10125}	6D	WMC786F / WMC786R
New	Xwmc822-6D {10125}	6D	WMC822F / WMC822R
Group 7AS
New	Xbarc1005-7A {10124}	7AS	BARC1005F / BARC1005R
New	Xbarc1025-7A {10124}	7AS	BARC1025F / BARC1025R
New	Xbarc1034-7A {10124}	7AS	BARC1034F / BARC1034R
New	Xbarc105-7A {10126}	7AS	BARC105F / BARC105R
New	Xbarc1088-7A {10124}	7AS	BARC1088F / BARC1088R
New	Xbarc1167-7A {10124}	7AS	BARC1167F / BARC1167R
New	Xbarc127-7A {10124}	7AS	BARC127F / BARC127R
New	Xbarc222-7A {10124}	7AS	BARC222F / BARC222R
New	Xbarc64-7A {10124}	7AS	BARC64F / BARC64R
Group 7AL
New	Xbarc108-7A {10124}	7AL	BARC108F / BARC108R
New	Xbarc121-7A {10124}	7AL	BARC121F / BARC121R
New	Xbarc192-7A {10124}	7AL	BARC192F / BARC192R
New	Xbarc221-7A {10124}	7AL	BARC221F / BARC221R
New	Xbarc275-7A {10124}	7AL	BARC275F / BARC275R
New	Xbarc29-7A {10124}	7AL	BARC29F / BARC29R
New	Xbarc292-7A {10124}	7AL	BARC292F / BARC292R
New	Xbarc49-7A {10124}	7AL	BARC49F / BARC49R
Group 7A
New	Xbarc1004-7A {10124}	7A	BARC1004F / BARC1004R
New	Xbarc103-7A {10124}	7A	BARC103F / BARC103R
New	Xbarc1087-7A {10124}	7A	BARC1087F / BARC1087R
New	Xbarc112-7A {10124}	7A	BARC112F / BARC112R
New	Xbarc1145-7A {10124}	7A	BARC1145F / BARC1145R
New	Xbarc151-7A {10125}	7A	BARC151F / BARC151R
New	Xbarc154-7A {10125}	7A	BARC154F / BARC154R
New	Xbarc157-7A {10124}	7A	BARC157F / BARC157R
New	Xbarc174-7A {10125}	7A	BARC174F / BARC174R
New	Xbarc195-7A {10125}	7A	BARC195F / BARC195R
New	Xbarc23-7A {10125}	7A	BARC23F / BARC23R
New	Xbarc70-7A {10125}	7A	BARC70F / BARC70R
New	Xcfd13-7A {10125}	7A	CFD13F / CFD13R
New	Xcfd193-7A {10125}	7A	CFD193F / CFD193R
New	Xcfd20-7A {10125}	7A	CFD20F / CFD20R
New	Xcfd242-7A {10125}	7A	CFD242F / CFD242R
New	Xgwm10-7A {10125}	7A	WMS10F / WMS10R
New	Xgwm4-7A {10125}	7A	WMS4F / WMS4R
New	Xgwm554-7A {10125}	7A	WMS554F / WMS554R
New	Xwmc139-7A {10125}	7A	WMC139F / WMC139R
New	Xwmc179-7A {10125}	7A	WMC179F / WMC179R
New	Xwmc488-7A {10125}	7A	WMC488F / WMC488R
New	Xwmc497-7A {10125}	7A	WMC497F / WMC497R
New	Xwmc525-7A {10125}	7A	WMC525F / WMC525R
New	Xwmc593-7A {10125}	7A	WMC593F / WMC593R
New	Xwmc596-7A {10125}	7A	WMC596F / WMC596R
New	Xwmc603-7A {10125}	7A	WMC603F / WMC603R
New	Xwmc607-7A {10125}	7A	WMC607F / WMC607R
New	Xwmc633-7A {10125}	7A	WMC633F / WMC633R
New	Xwmc646-7A {10125}	7A	WMC646F / WMC646R
New	Xwmc65-7A {10125}	7A	WMC65F / WMC65R
New	Xwmc695-7A {10125}	7A	WMC695F / WMC695R
New	Xwmc790-7A {10125}	7A	WMC790F / WMC790R
New	Xwmc809-7A {10125}	7A	WMC809F / WMC809R
New	Xwmc826-7A {10125}	7A	WMC826F / WMC826R
Group 7BS
Add reference	Xbarc65.1-7B {10124}	7BS	BARC65.1F / BARC65.1R
Add reference	Xbarc72-7B {10124}	7BS	BARC72F / BARC72R
Add reference	Xbarc85.1-7B {10124}	7BS	BARC85.1F / BARC85.1R
New	Xbarc231-7B {10124}	7BS	BARC231F / BARC231R
New	Xbarc63-7B {10124}	7BS	BARC63F / BARC63R
Group 7BL
Add reference	Xbarc176-7B {10124}	7BL	BARC176F / BARC176R
Add reference	Xbarc182-7B {10124}	7BL	BARC182F / BARC182R
Add reference	Xbarc20-7B {10124}	7BL	BARC20F / BARC20R
Correct	Xbarc255-7B {10124}	7BL	BARC255F / BARC255R
Add reference	Xbarc258-7B {10124}	7BL	BARC258F / BARC258R
Correct	Xbarc267-7B {10124}	7BL	BARC267F / BARC267R
Add reference	Xbarc278-7B {10124}	7BL	BARC278F / BARC278R
Add reference	Xbarc315-7B {10124}	7BL	BARC315F / BARC315R
Add reference	Xbarc340-7B {10124}	7BL	BARC340F / BARC340R
Add reference	Xbarc50-7B {10124}	7BL	BARC50F / BARC50R
Add reference	Xbarc90-7B {10124}	7BL	BARC90F / BARC90R
New	Xbarc1073-7B {10124}	7BL	BARC1073F / BARC1073R
New	Xbarc1181-7B {10124}	7BL	BARC1181F / BARC1181R
New	Xbarc219-7B {10124}	7BL	BARC219F / BARC219R
New	Xbarc32-7B {10124}	7BL	BARC32F / BARC32R
New	Xbarc65.2-7B {10124}	7BL	BARC65.2F / BARC65.2R
New	Xbarc82-7B {10124}	7BL	BARC82F / BARC82R
New	Xbarc85.2-7B {10124}	7BL	BARC85.2F / BARC85.2R
Group 7B
New	Xbarc10-7B {10125}	7B	BARC10F / BARC10R
New	Xbarc1082-7B {10124}	7B	BARC1082F / BARC1082R
New	Xbarc112-7B {10124}	7B	BARC112F / BARC112R
New	Xbarc123-7B {10125}	7B	BARC123F / BARC123R
New	Xbarc255-7B {10124}	7B	BARC255F / BARC255R
New	Xbarc258-7B {10124}	7B	BARC258F / BARC258R
New	Xbarc94-7B {10125}	7B	BARC94F / BARC94R
New	Xbarc95-7B {10125}	7B	BARC95F / BARC95R
New	Xcfa2040-7B {10125}	7B	CFA2040F / CFA2040R
New	Xcfa2106-7B {10125}	7B	CFA2106F / CFA2106R
New	Xcfd22-7B {10125}	7B	CFD22F / CFD22R
New	Xgwm213-7B {10125}	7B	WMS213F / WMS213R
New	Xwmc218-7B {10125}	7B	WMC218F / WMC218R
New	Xwmc426-7B {10125}	7B	WMC426F / WMC426R
New	Xwmc475-7B {10125}	7B	WMC475F / WMC475R
New	Xwmc51-7B {10125}	7B	WM51CF / WMC51R
New	Xwmc546.1-7B {10125}	7B	WMC546.1F / WMC546.1R
New	Xwmc546.2-7B {10125}	7B	WMC546.2F / WMC546.2R
New	Xwmc557-7B {10125}	7B	WMC557F / WMC557R
New	Xwmc581-7B {10125}	7B	WMC581F / WMC581R
New	Xwmc606-7B {10125}	7B	WMC606F / WMC606R
New	Xwmc613-7B {10125}	7B	WMC613F / WMC613R
New	Xwmc653-7B {10125}	7B	WMC653F / WMC653R
New	Xwmc662-7B {10125}	7B	WMC662F / WMC662R
New	Xwmc696-7B {10125}	7B	WMC696F / WMC696R
New	Xwmc723-7B {10125}	7B	WMC723F / WMC723R
New	Xwmc758-7B {10125}	7B	WMC758F / WMC758R
New	Xwmc792-7B {10125}	7B	WMC792F / WMC792R
Group 7DS
Add reference	Xbarc125-7D {10124}	7DS	BARC125F / BARC125R
Add reference	Xbarc126-7D {10124}	7DS	BARC126F / BARC126R
Add reference	Xbarc154-7D {10124}	7DS	BARC154F / BARC154R
Add reference	Xbarc214-7D {10124}	7DS	BARC214F / BARC214R
Add reference	Xbarc352-7D {10124}	7DS	BARC352F / BARC352R
New	Xbarc1033-7D {10124}	7DS	BARC1033F / BARC1033R
Group 7DL
Add arm	Xbarc26-7D {10124}	7DL	BARC26F / BARC26R
Add reference	Xbarc105-7D {10124}	7DL	BARC105F / BARC105R
Add reference	Xbarc111-7D {10124}	7DL	BARC111F / BARC111R
Add reference	Xbarc121-7D {10124}	7DL	BARC121F / BARC121R
Add reference	Xbarc172-7D {10124}	7DL	BARC172F / BARC172R
Add reference	Xbarc235-7D {10124}	7DL	BARC235F / BARC235R
Add reference	Xbarc53-7D {10124}	7DL	BARC53F / BARC53R
Add reference	Xbarc76-7D {10124}	7DL	BARC76F / BARC76R
New	Xbarc1046-7D {10124}	7DL	BARC1046F / BARC1046R
New	Xbarc1075-7D {10124}	7DL	BARC1075F / BARC1075R
New	Xbarc97-7D {10124}	7DL	BARC97F / BARC97R
Group 7D
New	Xbarc128-7D {10125}	7D	BARC128F / BARC128R
New	Xbarc184-7D {10125}	7D	BARC184F / BARC184R
New	Xbarc235-7D {10124}	7D	BARC235F / BARC235R
New	Xbarc5-7D {10125}	7D	BARC5F / BARC5R
New	Xbarc70-7D {10125}	7D	BARC70F / BARC70R
New	Xbarc87-7D {10125}	7D	BARC87F / BARC87R
New	Xcfa2040-7D {10125}	7D	CFA2040F / CFA2040R
New	Xcfd175-7D {10125}	7D	CFD175F / CFD175R
New	Xcfd193-7D {10125}	7D	CFD193F / CFD193R
New	Xcfd2.1-7D {10125}	7D	CFD2.1F / CFD2.1R
New	Xcfd26-7D {10125}	7D	CFD26F / CFD26R
New	Xcfd30-7D {10125}	7D	CFD30F / CFD30R
New	Xgdm145-7D {10125}	7D	DMS145F / DMS145R
New	Xgdm88-7D {10125}	7D	DMS88F / DMS88
New	Xgwm473-7D {10125}	7D	WMS473F / WMS473R
New	Xwmc166-7D {10125}	7D	WMC166F / WMC166R
New	Xwmc182-7D {10125}	7D	WMC182F / WMC182R
New	Xwmc221-7D {10125}	7D	WMC221F / WMC221R
New	Xwmc438-7D {10125}	7D	WMC438F / WMC438R
New	Xwmc450-7D {10125}	7D	WMC450F / WMC450R
New	Xwmc463-7D {10125}	7D	WMC463F / WMC463R
New	Xwmc488-7D {10125}	7D	WMC488F / WMC488R
New	Xwmc489-7D {10125}	7D	WMC489F / WMC489R
New	Xwmc506-7D {10125}	7D	WMC506F / WMC506R
New	Xwmc606-7D {10125}	7D	WMC606F / WMC606R
New	Xwmc629-7D {10125}	7D	WMC629F / WMC629R
New	Xwmc630-7D {10125}	7D	WMC630F / WMC630R
New	Xwmc634-7D {10125}	7D	WMC634F / WMC634R
New	Xwmc646-7D {10125}	7D	WMC646F / WMC646R
New	Xwmc653-7D {10125}	7D	WMC653F / WMC653R
New	Xwmc671-7D {10125}	7D	WMC671F / WMC671R
New	Xwmc698-7D {10125}	7D	WMC698F / WMC698R
New	Xwmc702-7D {10125}	7D	WMC702F / WMC702R
New	Xwmc797-7D {10125}	7D	WMC797F / WMC797R
New	Xwmc824-7D {10125}	7D	WMC824F / WMC824R
New	Xwmc827-7D {10125}	7D	WMC827F / WMC827R

Morphological and Physiological Traits

6. Awnedness

6.1.2 Tipped 1

B1.

ma:

Terminally located {10189}.

10. Boron Tolerance

Add at end of section: In contrast to tolerance, boron efficiency was studied in {10135}. Monogenic segregation occurred in Bonza (B inefficient) / SW 41 (moderately B inefficient) and SW 41 / Fang 60 (B efficient). Two genes, designated Bod1 and Bod2 segregated in Bonza / Fang 60.

9. Brittle Rachis

*Br-A1* {10182}.	Br2 (0130).
*Br-B1* {10182}.	Br3 {0130}.
*Br-D1* {10182}.	Br1 {9970}.	v:	After the present entry, add: ‘KU510, K/U511, KU515 {10182}.

17. Dormancy

QTL: Zenkoujikomugi / CS: Qphs.ocs-3A.1 on chromosome 3AS was associated with Xbcd1380-3A and Xfbb370-3A accounting for 38% of the phenotypic variation {10195}. A weaker QTL, Qphs.ocs-3A.2 in 3AL was not associated with TaVp1 {10195}, the wheat othologue of the maize transcription factor Viviparous-1.

20. Flowering Time

Winter wheat cross, Arina (149 days) / Forno (150 days): Six QTL detected over six environments, the 3 most important, all from Arina, were in chromosomes 6DL (R² = 16%), 3DL (R² = 14%) and 7BL (R² = 13%); 3 others in 2AL, 5BL and 6DL were from Forno (10172).

27.1. Red (brown/bronze) glumes

Rg2.

Synthetic Hexaploid-11 {10128}.

ma:

Xpsp2000-1D – 9.3cM – Rg2 – 21.2cM – Xgwm106-1D {10128}.

33. Hairy Glume

Hg..

ma:

Tel…… Hg/BG605525 – 3.8cM – Xpsp2999(Glu3)-1A {10193}.

39. Height

39.1. Reduced Height: GA Insensitive

*Rht-B1.*	ma:	Co-located with Xbarc10-4B {10189}.
*Rht-B1^IC12196*** {10183}.	tv:	T. turgidum var. polonicum IC12196 {10183}.

39.3. Reduced Height: QTL

Add at end of section:

Arina (120.5cm) / Forno (103cm): 5 QTLs in 1AS, 1BL, 2AL, 5AL and 6DL (R²values, 8-23%) of which only one, QHt.fal.1BL originated in Forno {10172}.

Rht-B1IC12196 [{10144}].

Rht-B1^1C12196 {10144}.

tv:

T. turgidum var. polonicum IC12196 (10144).

43. Lack of Ligules

Revise section as follows:  The liguleless character is controlled by complementary recessive genes in hexaploid wheat {077,738,942} and by a single recessive in tetraploid wheat {047,050,939,10133}. One gene at the tetraploid level is allelic with one of those in the hexaploid {939,10133}. Evidence for orthology of lg1 and lg2 with lg of rice {170}, lg1 of maize {004}, li of barley {1155} and al of rye was presented in {725}. al: Imperial rye chromosome 2R restored the liguled condition to a liguleless CS derivative

{939}.

*lg1*{047}.	2B {942}.		i: ANK33 = Novosibirskaya 67*10 / K59990 {}.
	v:	Eligulate W1342 lg2 lg3 {942,10133}; K31289 {10133} K59990 {}; K53660 {10133}; Liguleless partial backcross derivative of CS{939}.
	tv:		K17769 {10133}; K17784 {10133}.
*lg2*.	2D{942}.		i:		ANK33 = Novosibirskaya 67*10 / K59990 {}.
	v:	Eligulate W1342 lg1 lg3{942, 10133}; Liguleless partial backcross derivative of CS{939}.
	tv:	K17769 {10133}; K17784 {10133}.
*lg3* {10133}.	2A {10133}.			i:		ANK33 = Novosibirskaya 67*10 / K59990 {}.
	v:	Present in all hexaploid cultivars.

Genotypes of selected tetraploid wheat {10133}:

Lg1Lg1 Lg3Lg3: T .turgidum var. durum Ldn – dic DS 2A: T. turgidum var. dicoccum Khapli; Vernal; T. turgidum var. dicoccoides Israel A; MG4343.

Lg1Lg1 lg3lg3: T. turgidum var. durum:  Altaiskaya Niva; Castelpoziano; Langdon; Ldn – GB DS 2B; Golden Ball; Modoc; PI 349056.

lg1lg1 Lg3Lg3:  None identified.

Phenol Colour Reaction of Kernels

Wheat genotypes vary in response when caryopses are treated with weak solutions of phenol, a dark colour response being indicative of a positive response. This response is believed to be related to the action of tyrosinase. There seems to a genetic relationship with polyphenol oxidase activity which causes a darkening of flour, pasta and noodle products (see also 56. Polyphenol Oxidase (PPO) activity).

*Tc1* {10130}.	2AL {10131,10130}.	su:	Various substitutions of chromosomes 2A into CS {10131}.
		sutv:	Langdon* / dicoccoides 2A {10130}.
		tv:	Golden Ball {10130}.
*Tc2* {10130}.	2BL {10130}.	sutv:	Langdon* / Golden Ball 2B {10130}.
*Tc2* {10130}.	2BL {10130}.	tv:	Golden Ball {10130}
*Tc3* [{10131}].	Tc (10131). 2DL {10131}.	su:	CS / *Timstein 2D {10131}.
		v:	Chinese Spring (intermediate response) {10130}. Timstein Tc1 {10131}.
		sutv:	Langdon* / CS 2D(2A); Langdon* / CS 2B(2D) {10130}. T. dicoccoides Israel A {10130}. Lines with a negative phenol colour reaction.
		v:	Timstein {10131}.
		tv:	Cocorit 71 {10130}; Langdon {10130}.

55. Pollen Killer

Add to section:

Kato & Maeda {10164} reported both partial pollen and seed sterility in crosses involving certain landraces and Chinese Spring. They attributed sterility to recessive alleles of three complementary genes. The genes were designated Ki2, Ki3 and Ki4 (10164), but the relationship of Ki3 to the earlier designated Ki was not established. Some genotypes:

*Ki2 Ki3 Ki4*.	v:	Aka Kawa Aka {10165}; Hope {10165}; Marquis {10165}; Red Russian {10165}.
*ki2 Ki3 Ki4.*	v:	Akadaruma {10165}; Canthatch {10165}; Norin 61 {10165}; Pakistani Landrace IL159 {10164}.
*Ki2 ki3 Ki4.*	v:	Gabo {10165}; Thatcher {10165}; Timstein {10165}; Zlatiborka {10165}.
*Ki2 Ki3 ki4.*	v:	Kagoshima {10165}; Komugi Jingoro {10165}; Sakobore {10165}.
*ki2 ki3 Ki4.*	v:	Finnish Landrace WAG4339 {10165}; Hungarian Landrace WAG4458 {10165}; Novosadska Jara {10165}.
*ki2 Ki3 ki4.*	v:	Chinese Spring {10165}; Eshima Shinriki {10165}; Ethiopian Landrace IL70 {10164}; Norin 26 {10165}.
*Ki2 ki3 ki4.*	v:	Cadet {10165}; Iraqi Landrace IL171 {10165}; Rex {10165}.

56. Polyphenol Oxidase (PPO) Activity

Add at end of first paragraph: An orthologous series of genes affecting PPO activity in both common wheat and durum was proposed in {10149}. See also, Phenol Colour Reaction of Kernels.

Reaction to Black-Point of Grain

Black-point is a dark discoloration of the embryo region of the kernels. Whereas black-point is often attributed to infection by a number of fungi, the presence of such fungi may be a consequence of saprophytic colonization of affected tissues rather than the cause (see {10148} for references).

QTL: Sunco / Tasman DH population: QTL located in chromosomes 2B (15% of phenotypic variation), 3D, 4A (from Sunco) and 1D, 5A and 7AS (from Tasman {10148}. The 2B gene was associated with the presence of Sr36 {10148}.

Cascades / AUS1408 DH population: QTL from Cascades located in chromosomes 2D (5cM from Xgwm484-2D, 18% of phenotypic variation), 2A (13%), and 7As (12%) {10148}.

58. Response to Photoperiod

Ppd-B1.

ma:

Gene order: Xwhs2002-2B/Xgwm257-2B – Ppd-B1 – Xgwm7B. Actual linkage values varied between crosses (10129).

61. Response to Vernalization.

*Vrn-A1a.*	Under i:	Change ‘Triple Dirk’ to ‘Triple Dirk D (GenBank AY616458 & AY616459 {10198}) {1171,1172}’.
*Vrn-A1a.*	Under v2:	Insert ‘Triple Dirk Vrn-B1a {1173}’.
*Vrn-A1b* {10198}.	v:	Marquis PI94548 (GenBank AY616461) {10198}.
*Vrn-A1b* {10198}.	tv:	T. turgidum var. durum ST36 {10198}.
*Vrn-A1c* {10198}.		This allele has a promoter similar to recessive vrn-A1a from Triple Dirk C {10198} and a large deletion in intron 1 {10202}.
	v:	IL162 {10198}; IL369 {10198} has a 5.5kb deletion in Vrn-A1 intron 1 {10202}.
	tv:	Aldura PI 486150 {10202}; Leeds CI 13796 {10202}; Mexicali 75 PI 433760 {10202}; Minos CI 15161 {10202}. Most durum genotypes have a 7.2kb deletion in intron 1 {10202}.
*Vrn-A1d* {10198}.	tv:	T. turgidum var. dicoccoides Amrim 34 {10198}: FA15 (GenBank AY616462) {10198}; Iraq 8736 {10198}; Tabigha 15 {10198}.
*Vrn-A1e* {10198}.	tv:	T. turgidum var. dicoccum ST27 = Vernal (GenBank AY616463) {10198}.
*Vrn-B1*.		Add as the second note following the ma: entry: ‘All common wheat genotypes carrying Vrn-B1a studied so far have a 6.8kb deletion in intron 1 (Triple Dirk B, Bersee, Festiguay, Mara, Milturum, Noe, Spica) {10202}.’
*Vrn-D1.*		Add as a note following the v2 entry: ‘All the common wheat genotypes carrying Vrn-D1a studied so far have 4.2kb deletion in intron 1 (Triple Dirk E, Chinese Spring, Norin 61, Shinchunaga, Shirasagi Komugi, Ushio Komugi) {10202}.’

69. Tiller Inhibition

tin1.	1A {10193}.	v:	Banks + tin {10193}; Oligoculm 390 {10193}; Uniculm 492 {10193}.
tin1.		ma:	Xpsp2999(Glu3)-1A – 3.9cM – tin1/Xgwm136-1A – 2.4cM – Xwhs179-1A {10193}; the 350bp allele of Xgwm136-1A was diagnostic of tin1 {10193}.

Stem solidness

*Qsst.msub-3BL*{10206}.	3BL{10206}.	v:	Rampart PI 593889 {10306}.
*Qsst.msub-3BL*{10206}.		ma:	Linked to microsatellite markers Xgwm247-3B, Xgwm340-3B, and Xgwm547-3B. These markers explained 76% of the total variation for stem solidness in Rampart / Jerry {10206}.

72. Change to Yield and Yield Components

72.4. Change to Grain yield

*QYld.ndsu-5B* [{10161}].	[QGy.ndsu-5B {10161}].	v:	LDN (DIC5B) / LDN, contributed by LDN {10161}.
		ma:	Mapped to the Xbcd1030-5B – Xgwm604-5B interval {10161}.

74.1. Grain protein content

*QGpc.ndsu-5B.1* {10161}.	5B (10161).	v:	LDN (DIC5B) / LDN, contributed by DIC5B {10161}.
*QGpc.ndsu-5B.1* {10161}.		ma:	Nearest marker, Xgwm604-5B {10161}.
*QGpc.ndsu-5B.2* {10161}.	5B {10161}.	v:	LDN (DIC5B) / LDN, contributed by DIC5B {10161}.
*QGpc.ndsu-5B.2* {10161}.		ma:	Nearest marker, Xabc310-5B {10161}.
*QGpc.ndsu-5B.3* {10161}.	5B {10161}.	v:	LDN (DIC5B) / LDN, contributed by DIC5B {10161}.
*QGpc.ndsu-5B.3* {10161}.		ma:	Nearest marker, Xwg909-5B {10161}.

74.3.1.3

Glu-A3. Before the allele list add: The first 7 alleles were distinguished using 5 allele-specific primer sets (10185).

*Glu-A3d.*	v:	Suneca {10185}.
*Glu-A3e.*	v:	Halberd (10185).
*Glu-A3g.*	v:	Glenlea {10185}.

Further mainly Australian genotypes with alleles a to f are listed in {10185}.

*Glu-B1.*
*Glu-B1al.*	v:	Benkuti 1201 {10196,10197}; Klein Universal II {10196}; Tezanos Pintos Precoz {10196}; Tobari 66 {10196}.
Add note: Other genotypes are listed on {10195}.
*Glu-B1be* (10186).	tv:	T. dicoccoides Israel-A {10186}.
*Glu-B1bf* {10186}.	tv:	T. dicoccoides PI481521 {10186}.
*Glu-B1bg* {10186}.	tv:	T. dicoccoides PI478742 {10186}.

74.5.6 Waxy proteins

*Wx-A1f* [{10187}].	Null allele.	v:	Turkey-124 {10187}; Turkey 140 {10187}; Turkey 171 {10187}; Turkey 280 {10187}; Turkey 299 {10187}.
Lines with this allele produce a PCR product with a 173-bp insertion in an exon {10187}.

74.5.8. Puroindolines and grain softness proteins

*Pina-D1.*
*Pina-D1b.*		v2:	Delete Fortuna and Glenman from this group.
*Pina-D1l* [{10168}].	Pina-D1c {10168}.	v1:	Sanyuehuang, Guangtouxiaomai, Xiaoyuhua, Chengduguangtou, and Baikezaomai Chinese landraces {10208}.
		v2:	Fortuna (USA) Pinb-D1a {10168}; Glenman Pinb-D1a {10168}.
Pina-D1l has a C deletion leading to an open reading frame shift and premature stop codon; PINA null, hard kernel texture {10208}.
*Pina-D1m* {101208}.		v:	Hongheshang {10208}.
C-to-T subsitution : Proline-35 to serine ; hard kernel texture {10208}.
*Pina-D1n* {10208}.		v:	Xianmai, Zhuantoubaike, Baimangchun, Yazuizi, Yazuixiaomai Chinese landraces {10208}.
G-to-A substitution : Tryptophan-43 to stop codon; PINA null, hard kernel texture {10208}.
*Pinb-D1.*
*Pinb-D1r* [{10209}].	Pinb-D1h {10209}.	v:	Hyb65 (NCBI AJ619022) {10209}.
G insertion : open reading frame shift and premature stop codon; hard kernel texture {10209}.
*Pinb-D1s* {10209}.		v:	NI5439 (NCBI AJ619021) {10209}.
G insertion as in Pinb-D1r and an A-to-G substitution; hard kernel texture {10209}.
*Pinb-D1t* {10208}.		v:	Guangtouxianmai {10208}; Hongmai {10208}.
G-to-C substitution: Glycine-47 to arginine; hard kernel texture {10208}.

Pathogenic Disease/Pest Reaction.

75. Reaction to Barley Yellow Dwarf Virus

Add: Cereal Yellow Dwarf Virus.

*Bdv2.*	Insert note: Derived from tissue culture.		v:	Mackellar = LH64C {10177}.
	Derived by ph1-induced recombination.		v:	Yw243, Yw443, Yw642 and Yw1029 {see 10177}.
	ma:	Add: Two RGAP and 1 RAPD markers developed for the Yw series also effective for at least TC14 {10177}.

*Bdv3* {10159}.	Derived from Th. intermedium. cv. Ohahe {10158}.	7DS.7DL-7EL {10157}
		v:	P961341 PI 634825 {10157}.
		ad:	P107 {10159}.
		su:	P29 (7D{7E}) {10156}.

76. Reaction to Blumeria graminis

As a second line add:

‘Resistance genes and their molecular associations are reviewed in {10141}.’.

76.1. Designated genes for resistance

*Pm3h* {10212}.	v:	Abessi {10212,10199}
	ma:	tel…. Pm3h - 3.7cM - Xgwm905-1A {10199}.
*Pm3i* {10212}.	v:	N324 {10199}
	ma:	tel…. Pm3i - 7.2cM - Xgwm905-1A {10199}.
*Pm3j* {10212}.	v:	Gus 122 {10199}
	ma:	tel…. Pm3j - 1.2cM - Xgwm905-1A {10199}.
Seven variants of Xgwm905-1A were found among standard lines with the 10 Pm3 resistance alleles {10199}.
*Pm4a.*	v:	Yangmai 10 {10176}; Yangmai 11 (10176).
	ma:	Change last part of last sentence to: ‘; Xbcd1231-2A was converted to a STS marker {0069;10176} and to a Pm4a-specific dominant PCR marker {10176}. Xgwm356-2A – 4.8cM - Pm4a {10176}.
*Pm17.*	ma:	Pm17 – 7.8cM – Xmwg68-1R – 10.9cM – Sec-1 in 1RS {10167}.
*Pm31* [{0301}]. Modify or add as required:	mlG {0301}.	6AL {0301}.
	ma:	cent….. Pm31 – 0.6cM – Xpsp3029.1 – 2.5cM – Xpsp3071-6A {0301}.
*Pm21.* Add note at end of section: Three lines, Pm97033, Pm97034 and Pm07035, with a 6DL.6VS translocation were developed from a different source of H. villosa {10194}. These may carry Pm21.
*Pm33* {10205}.	PmPS5B {10205}.	2BL {10205}.
	v:	F3 line Am9 //3* Laizhou 953 {10205}.
	v2:	Am9 = T. carthlicum PS5 / Ae. umbellulata Y39 {10205}.
	tv2:	T. carthlicum PS5 PmPS5A {10205}.
*mlRd30* (10175).	Recessive.	7AL (10175).
	v:	RD30 {10175}. TA2682c {10175}.
	ma:	Xgwm344-7A – 1.8cM – mlRD30 – 2.3cM – Xksuh9-7A {10175};
TA2682c carries a second dominant gene located in chromosome 1A {10175}.
*MlZec* {10127}.	2BL {10127}.	tv:	T. dicoccoides Mo49 {10127}.
	v:	Zecoi 1 = Ralle3 / T. dicoccoides* {10127}.
	ma:	Distally located in chromosome 2BL {10127}.

To ‘Genotype lists: add to Chinese wheats {…’,10201’}.

78. Reaction to Diuraphis noxia

*Dn4.*	ma:	Xgwm106-1D – 5.9cM – Dn4 – 9.2cM – Xgwm337-1D {10128}.
*Dn7.*	v:	94M370 {10188}.
	ma:	Xbcd1434-1R – 1.4cM – Dn7 – 7.4cM – Xksud14-1R {10188}.
*Dn1881* {10145}.	7BS {10145}.	tv:	Line 1881 {10145}.
		ma:	Xgwm46-7BS – 10.1cM – Dn1881 – 12.8cM – Xgwm333-7BL {10145}.

QTL: QTls for antixenosis were associated with Xpsr687-7D (7DS) and Xgwm437-7D (7DL) in CS / CS (Synthetic 7D) {10136}. Separate antibiotic effects were demonstrated for the same chromosome {10136}.

79. Reaction to Fusarium spp.

79.1.

Insert after Patterson / Fundulea

Arina (R) / Forno (S): Three QTLs, QFhs.fal-6DL (R² = 22%), QFhs.fal-5BL.1 (in Forno, R² = 14%) and QFhs.fal.4AL (R² = 10%) and 5 minor QTLs in 2AL, 3AL, 3BL, 3DS and 5DL were detected (10172).

Frontana (R) / Remus (S): Major QTLs in chromosomes 3AL (Xgwm270-3AL – Xdupw227-3A region) and 5A (Xgwm129-5A – Xbarc-5A region) accounted for 16% and 9% 0f the phenotypic variation (mainly type 1 resistance) over 3 years (10174).

Nanda2419 (S) / Wangshuibai (R): 8 QTL were identified; those with large effects were associated with Xgwm533-3B.3 – Xgwm533-3B.1 (W), Xwmc539-6B (W) and Xs1021m-2B – Xgwm47-2B {10190}.

Wangshuibai (R)/ Wheaton (S): QTLs located in chromosomes 3BS (Xbarc147-3B, R² = 37% & Xbarc344-3B, R²= 7%), 7AL (Xwms1083-7A, R² = 10%) and 1BL (Xwms759-1B, R² = 12%) {10200}.

Insert at end of section:

Haplotype diversity among a large number of FHB resistant and susceptible (mainly Canadian) germplasms indicated similarities in Asian, Brazilian and other materials (10173). Brazilian cv. Maringa was more similar to Asian than to other Brazilian lines (10173).

80. Reaction to Heterodera avenae

Cre1.

Chara {10163}; Mira {10163}; Mitre {10163}.

82. Reaction to Mayetiola destructor

*H32* {10137}.	3DL {10137}.	v:	Synthetic W7984 {10137}.
		ma:	Xgwm3-3D – H32 – XksuE14-3D {10137}.

84. Reaction to Mycosphaerella graminicola

Stb4.

7DS {10140}.

ma:

Stb4 – 0.7cM – Xgwm111-7D {10140}.

Add to existing comment: Genetic analysis of Tadinia indicated single gene segregation (assumed to be Stb4) with a Californian culture but a different single gene segregation with South American isolates {10140}.

QTL: ITMI Population: Three QTL, QStb.ipk-1DS, QStb.ipk-2DS and QStb.ipk-6DS conferred seedling-stage resistance to 2 isolates, whereas 2 QTL QStb.ipk-3DL and QStb.ipk-7BL conferred separate adult-stage resistances to each isolate {10151}.

86. Reaction to Phaeophaeria nodorum

Reaction to Phaeosphaeria nodorum

SnbTM. Add reference {10210}. v: Red Chief {10210}, Hadden {10210}, Missouri Queen {10210}, Cooker 76-35 {10210}, 81IWWMN 2095 {10210}, 86ISMN 2137 {10210}. Allelism of the hexaploid wheat gene and the T. timopheevii SnbTM is suspected but not confirmed.

86.1 Add to QTL:

A QTL, QSnl.ihar-6A-6AL, identified in DH lines of Alba (R) / Begra (S) accounted for 36% of the phenotypic variance in disease severity and 14% of the variance in incubation period (10143).

87. Reaction to P. graminis

*Sr2.*		ma:	STMs for the Xgwm533-3B locus had increased specificity as markers for Sr2 {10142}.
*Sr27.*	Enter the reference number ‘10162’ at 3 {} positions under 3A and one {} position under 3B.

88. Reaction to P. striiformis

*Yr1.*		v2:		Savannah Yr2 Yr5 Yr9 Yr32 {10032}.
*Yr3.*		v2:		Savannnah Yr1 Yr2 Yr9 Yr32 {10016}. Senat Yr32{10016}.
*Yr9.*		v2:		Savannah Yr1 Yr2 Yr3 Yr17 {10016}. Kauz and derivatives, Bakhtawar 94, WH542, Memof, Basribey 95, Seyhan 95 Yr18 Yr27{10160}.
*Yr17.*		v2:		Savannah Yr1 Yr2 Yr3 Yr32 {10016}.
*Yr18.*		v2:		Kauz and derivatives, Bakhtawar 94, WH542, Memof, Basribey 95, Seyhan 95 Yr9 Yr27{10160}.
*Yr27* Change {953} to {928}.		v1:		Add: Attila {928}; McMurachy {928}; Inquilab 91 {928}; Kauz {928}; Opata 85 {928}; PWB343 {928}.
		v2:		Kauz and derivatives, Bakhtawar 94, WH542, Memof, Basribey 95, Seyhan 95 Yr9 Yr18{10160}.
		ma:		When analysed as a QTL, variation associated with the Sr27 locus was associated with RFLP markers Xcdo152-2B and Xcdo405-2B {928}. Delete the comment starting with ‘Note’.
*Yr32.*		YrCV {1430}. Correct chromosome location to 2AL {10016}.
		i:			Tres / 6* Avocet S (10016).
		v:			Anouska {1430}; Tres (10016).
		v2:			Savannah Yr1 Yr2 Yr3 Yr4 Yr17 {10016}. Senat Yr3 {10016}.
		ma:			Xwmc198-2A – 2cM – Yr32 {10016}. Yr32 was co-incident with one AFLP marker {10016}.
*Yr35* {10203}.		YrS8 {10204 }.			6BS {10203}.
		v:			98M71 = AUS 91388 = T. dicoccoides 479 / 7*CS {10204}.
		tv:			T. dicoccoides 479 {10204}.
*Yr36* {10138}.		Adult plant resistance.					6BS {10138}.
	i:	Yecora Rojo NIL PI 638740 {10138}.				v:		Glupro {10138}.
	itv:	UC1113 NIL PI 638741 {10138}. tv: RSL#65 {623,10138}; T. dicoccoides FA-15 {10138}.
	ma:	Yr36 is between Xucw74-6B and Xucw77-6B and 3-7cM proximal to Nor-B2 {10138}. Yr36 is closely linked to the high grain protein locus of T. turgidum var. dicoccoides FA-15 {10138}.
*Yr37* {10139}.		Derived from Aeg. kotschyi.							2DL {10139}.
		v:	Line S14 {10139}.
		ad:	Line 8078 {10139}.
		al:	T. kotschyi 617 {10139}.

88.3. QTLs

Otane (R) / Tiritea (S) DH population: QTL in 7DS (probably Yr18), 5DL (from Otane) and 7BL (Tiritea) {10150}. Interval mapping of 7DS indicated that that the presumed Yr18 was 7cM from Xgwm44-7D {10150}.

Kariega / Avocet S DH population. Two QTLs QYr.sgi-7D (probably Yr18) and QYr.sgi.2B.1 accounted for 29 and 30%, respectively, of the phenotypic variation for stripe rust response. The nearest marker to the latter was Xgwm148-2B {10184}.

89. Reaction to P. triticina

*Lr1.*	dv:	Several Ae. tauschii accessions {10191}.
	ma:	Terminally located {10189}. In Ae. tauschii recombination in the region was 5-10X that in common wheat, gene order Xpsr567-5D – Lr1 – Xabc718-5D {10191}.
*Lr2a.*	v2:	Ck 9835 Lr9 {10146}. Ck 9663 Lr9 Lr10 {10146}.
*Lr9.*	v2:	Ck 9835 Lr2a {10146}. Ck 9663 Lr2a Lr10 {10146}. Lockett Lr24 {10146}.
*Lr10.*	v2:	Ck 9663 Lr2a Lr9 {10146}.
*Lr11.*	v:	Pioneer 2850 {0523}, Pocahontas {10146}, Saluda {10146}.
*Lr13.*	v2:	AC Barrie Lr16 {10178}.
*Lr16.*	After the existing reference for 2BS add: ‘,10170’.
	v:	AC Domain {10170}; AC Foremost {10170}; McKenzie {10170}.
	v2:	AC Barrie Lr13 {10178}.
	ma:	Distally located: Lr16 – Xwmc764-2B, 1, 9 and 3cm, respectively, in crosses RL4452 / AC Domain, BW278 / AC Foremost and HY644 / McKenzie (10170,10189).
*Lr17a.*	v:	Jagger {10146}.
*Lr24.*	v:	Lockett Lr9 {10146}.
	ma:	Linked with SCAR marker SCS73719 earlier thought to tag Lr19 {10147}.
*Lr50.*	v:	Correct existing entry of WGR36 to ‘KS96WGRC36 = TAM3 / TA870 {0221}’. Add to existing entries: U2657 = Karl 924 / TA674 {0221}; U3067 = TAM1074 / TA874 {0221}; U3193 = TAM1074 / TA874 {0221}.
	tv:	T. ameniacum TA145 {0221}; TA874 {0221}; TA870 {0221}; TA895 {0221}.
	ma:	Linked with Xgwm382-2B (6.7cM) and Xgdm87-2B (9.4cM {0221}.
*Lr53* {10203}.	LrS8 {10204}.	6BS {10203}.
	v:	98M71 = AUS 91388 = T. dicoccoides 479 / 7*CS {10204}.
	tv:	T. dicoccoides 479 {10204}.
*Lr54* {10139}.		Derived from Aeg. kotschyi.	2DL {10139}.
	v:	Line S14 {10139}.
	ad:	Line 8078 {10139}.
	al:	T. kotschyi 617 {10139}.
*Lr55* {10180}.	Derived from Elymus trachycaulis {10180}.		1B (1BL.1H^tS {10180}.
	ad:	CS + 1H^t {10180}.
	v:	KS04WGRC45 = Heyne*3 / TA5586.

Complex genotypes:

AC Splendor: Lr1 Lr16 Lr34 {10179}.

AC Teal: Lr1 Lr13 Lr16 {821}.

Alsen: Lr2a Lr19 Lr13 Lr23 Lr34 {10152}.

Norm: Lr1 Lr10 Lr13 Lr16 Lr23 Lr34 {10152}.

At end of section add to: Genotype lists: U.S.A. cultivars. ‘{….,10146,10152}.’

89.3. QTL for reaction to P. triticina

QTLs

Two QTLs for slow leaf rusting, located on chromosome arms 2B and 7BK, were mapped for final severity, area under disease progress, and infection rate in the CI 13227 (resistant) x Suwon (susceptible) SSD population {10211}. The QLr.osu-2B was associated to microsatellite markers Xbarc18-2B and Xbarc167-2B (R² = 9-18%). The QLr.osu-7BL was associated to microsatellite marker Xbarc182-7B (R²= 12-15%) {10211}. CI 13227 contributed the resistant alleles for both QTLs.

90. Reaction to Pyrenophora tritici-repentis (anomorph: Drechlera tritici-repentis)

Delete the second sentence of the introduction and replace with ‘Virulence in the pathogen is mediated by host-specific toxins and host resistance is characterized by insensitivity to those toxins. Three toxins, Ptr ToxA, Ptr ToxB and Ptr ToxC have been identified (see {10153}).

90.1 Insensitivity to tan spot toxin

*tsn1* Add reference {10207}.	v:	AC Barrie {10153}; AC Cadillac {10153}; AC Elsa {10153}; Hadden {10155}; Laura {10153}; Line 6B-365 {10155}; Red Chief {10155}.
	ma:	Completely linked to markers Xfcg1-5B, Xfcg10-5B, Xfcg16-5B, and Xfcg17-5B {10207}.

90.2

In the 2004 Supplement change tsc1 to tsc2.

QTL: Replace 2004 entry with: ‘ITMI population: In addition to tsc2 which accounted for 69% of the phenotypic variation in response to race 5, a QTL in chromosome 4AL (Xksu916(Oxo)-4AS, W-7948) accounted for 20% of the phenotypic variation {10015}.

Add at the end of the section ‘Introgressions of genes for insensitivity to Ptr ToxA and Ptr ToxB are outlined in {10153}.

92. Reaction to Schizaphis graminum

*Gb2.*	ma:	2.7cm proximal to Sec1 in 1RS, but co-segregated with Sec-1P {10167}.
*Gb3.*	ma:	Xgwm037-7D – 0.4cM – Gb3/Xwmc634-7D – 0.8cM {10169}.
*Gb7* {10169}.	7DL {10169}.	v:		Synthetic W7984 {10169}.
	tv:	Ae tauschii TA1651 {10169}.
	ma:	Xwg420-7D – 2.1cM – Gb7 – 13.4cM – Xwmc671-7D {10169}.
*Gby* {10192}.	7A {10192}.	v:	Sando’s Selection 4040 {10192}.
	ma:	Xpsr119-7A/Xbcd98-7A - 5.8cM - Gby - 3.8cM - XPr1B-7A {10192}.
*Gbz* {10171}.	7DL (10171).	v:	KSU97-85-3 {10171}.
	tv:	Ae. tauschii TA1675 {10171}.
	ma:	Xgdm46-7DI – 9.5cM - Xwmc157-7D/Gb3/Gbz – 5.1cM – Xbarc53-7D {10171}.

QTL: Antibiosis was associated with several markers, including Rc3 (7DS) in chromosome 7D {10167}.

Reaction to Soil-Borne Cereal Mosaic

Sbm1 [{10132}].

SbmCz1{10132}.

Cadenza {10132}.

Sbm1 was identified in a DH population of Avalon (susceptible) / Cadenza {10132}.

93. Reaction to Tapesia yallundae

Add at end of section: Resistance was reported in line SS767 = PI 611939, a 4J(4D) substitution line {10134}. The alien chromosome was derived from Th. ponticum.

94 Reaction to Tilletia caries

*Bt8.*	v:	HY476 {10181}.
*Bt10.*	v:	AC2000 {10181}; AC Cadillac {10181}; AC Carma {10181}; AC Crystal {10181}; AS Foremost {10181}; AC Taber {10181}; AC Vista {10181}.

97. Reaction to Wheat Spindle Streak Mosaic Bymovirus (WSSMV)

*Wss1* {10154}.	Derived from Haynaldia villosa.		4D (4DL.4VS) {10154}.	tr:	NAU413 {10154}.
*Wss1* {10154}.	su:	Yangmai#5 4V(4D) {10154}.

100 Reaction to Colonization by Eriophes tulipae

*Cmc1.*	i:	Norsar*5 / Cmc1 {10166}.
*Cmc2.*	i:	Norstar*5 / Cmc2 {10166}.
*Cmc3.*	i:	Norstar*5 / Cmc3 {10166}. Need to confirm relationship of 1RS segment in Amigo and Salmon as this NIL was derived from KS80H4200 a Chinese Spring Salmon line.

Genetic Linkages

Chromosome 1AS
Xgli-A5	-	Pm3g	5.2cM {0070}
Chromosome 2AL
Cent	-	Tc2	46.8cM +- 0.9cM {10133}
Yr32	-	Yr1	I & 35 cM {10016}
Tc2	-	Lg1	11.9cM {10133}
Chromosome 2BS
Yr27	-	Lr13	3.6cM +- 2.0cM {928}
Chromosome 2BL
Cent	-	Tc2	40.7cM +- 0.9cM {10133}
Gene order: Cent – Xgwm382-2B – 8.0cM - Xgwm619-2B –35.7cM - Tc2 – 9.1cM - lg1 {10133}
Chromosome 2DL
Cent	-	Tc3	38.8% +- 5.8% {10131}
Chromosome 3AS
Br-A1	-	Cent	20.6cM {10182}
Chromosome 3DL
Br-D1	-	Cent	21.1cM {10182}
Chromosome 7DL
Gb7	-	Gb3	8.75cM {10169}

References

Updates

928. McDonald et al. 2004 Euphytica 239-248.

953. This reference can be deleted. (after checking the linkage Table for 2BS).

0163. Full reference from 2001 Supplement needs to be entered in the database.

0256. Change to: Martin-Sanchez JA, Gomez-Colmenarejo M, Del Morel J, Sin E, Montes MJ, Gonzalez-Belinchon C Lopez-Brana I & Delibes A 2003 A new Hessian fly resistance gene (H30) tyransferreed from wild grass Aegilops triuncialis to hexaploid wheat. Theoretical & Applied Genetics 106: 1248-1255.

0311. McCartney CA, Brule-Babel AL, Lamari L & Somers DL 2003 Chromosomal location of a race-specific resistance gene to Mycosphaerella graminicola in spring wheat ST6. Theoretical & Applied Genetics 107: 1181-1186.

10101. Crop Science 44: 1434-1443.

10015. Update to: 2004. Theoretical & Applied Genetics 109: 464-471.

10016. Update to: 2004. Theoretical & Applied Genetics 108: 567-575.

10018. Update to: Theoretical & Applied Genetics 109: 1597-1603.

New

10124. Song QJ, Shi JR, Singh S, Fickus EW, Costa JM, Lewis J, Gill BS, Ward R & Cregan PB 2005 Development and mapping of microsatellite (SSR) markers in wheat. Theoretical & Applied Genetics 110: 550-560.

10125. Somers DJ, Isaac P. Edwards K. 2004 A high-density wheat microsatellite consensus map for bread wheat (Triticum aestivum L.). Theoretical and Applied Genetics 109: 1105-1114.

10126. Sourdille P, Singh S, Cadalen T, Brown-Guedira GL, Gay G, Qi L, Gill BS, Dufour P, Murigneux A, Bernard M (2004) Microsatellite-based deletion bin system for the establishment of genetic-physical map relationships in wheat (Triticum aestivum L.). Functional and Integrative Genomics 4: 12-25.

10127. Mohler V, Zeller FJ, Wenzel G & Hsam SLK 2004 Chromosomal location of genes for powdery mildew resistance in common wheat (Triticum aestivum L.), 9. Gene MlZec from the Triticum dicoccoides-derived wheat line Zecoi-1. Theoretical and Applied Genetics 109: 210-214.

10128. Arzani A, Peng JH & Lapitan NLV 2004 DNA and morphological markers for a Russian wheat aphid resistance gene. Euphytica 139: 167-172.

10129. Mohler V, Lukman R, Ortiz-Islas S, William M, Worland AJ, Van Beem J & Wenzel G 2004 Genetic and physical mapping of photoperiod insensitive gene Ppd-B1 in common wheat. Euphytica 138: 33-40.

10130. Watanabe N, Tekeuchi A & Nakayama A 2004 Inheritance and chromosome location of the homoeologous genes affecting phenol colour reaction of kernels in durum wheat. Euphytica 239: 87-93.

10131. Wrigley CW & McIntosh RA 1975 Genetic control of factors regulating the phenol reaction of wheat and rye grain. Wheat Information Service 40: 6-11.

10132. 10132. Kanyuka K, Lovell DJ, Mitrofanova OP, Hammond-Kosack & Adams MJ 2004 A controlled environment test for resistance to Soil-borne cereal mosaic virus (SBCMV) and its use to determine the mode of inheritance of resistance in wheat cv. Cadenza and for screening Triticum monococcum botypes for sources of SBCMV resistance. Plant Pathology 53: 154-190.

10133. Watanabe N, Nakayama A & Ban T 2004 Cytological and microsatellite mapping of the genes determining liguleless phenotype in durum wheat. Euphytica 140: 163-170.

10134. Li HJ, Arterburn M, Jones SS & Murray TD 2004 A new source or resistance to Tapesia yallundae associated with a homoeologous group 4 chromosome in Thinopyrum ponticum. Phytopathology 94: 932-937.

10135. Jamjod S, Niruntrayagul S & Rerkasem B 2004 Genetic control of boron efficiency in wheat (Triticum aestivum). Euphytica 135: 21-27.

10136. Castro AM, Vasicek A, Ellerbrook C, Gimenez DO, Tocho E, Tacaliti MS, Clua A & Snape JW. 2002 Mapping quantitative trait loci in wheat for resistance against greenbug and Russian wheat aphid. Plant Breeding 123: 361-365.

10137. Williams C 2004 Personal communication.

10138. Chicaiza, O, Khan IA, Zhang X, Brevis CJ, Jackson L, Chen X & Dubcovsky J. 2005. Registration of five wheat isogenic lines for leaf rust and stripe rust resistance genes. Crop Science (In press).

10139. Marais GF 2004 Personal communication.

10140. Adhikari TB, Cavaletto JR, Dubcovsky J, Gieco JO, Schlatter AR & Goodwin SB 2004 Molecular mapping of the Stb4 gene for resistance to septoria tritici blotch in wheat. Phytopathology 94: 1198-1206.

10141. Huang X.Q. & Roder MS 2004 Molecular mapping of powdery mildew resistance in wheat: a review. Euphytica 137: 203-223.

10142. Hayden MJ, Kuchel H & Chalmers KJ 2004 Sequence tagged microsatellites for the Xgwm533 locus provide new diagnostic markers to select for the presence of stem rust resistance gene Sr2 in bread wheat (Triticum aestivum L.). Theoretical & Applied Genetics 109: 1641-1647.

10143. Arseniuk E, Czembor PC, Czaplicki A, Song,QJ, Cregan PB, Hoffman DL & Ueng PP 2004 QTL controlling partial resistance to Stagonospora nodorum leaf blotch in winter wheat cultivar Alba. Euphytica 137: 225-231.

10144. Watanabe N 2004 Triticum polonicum IC12196: a possible alternative source of GA3-insensitive semi-dwarfism. Cereal Resesrch Communications 32: 429-434.

10145. Navabi Z, Shiran B & Assad MT 2004 Microsatellite mapping of a Russian wheat aphid resistance gene on chromosome 7B of an Iranian tetraploid wheat line: preliminary results. Cereal Research Communications 32: 451-457.

10146. Kolmer JA, Long DL & Hughes ME 2004 Physiologic specialization of Puccinia triticina in the United States in 2002. Plant Disease 88 1079-1084.

10147. Prabhu KV, Gupta SK, Charpe A & Koul S 2004 SCAR marker tagged to the alien leaf rust resistance gene Lr19 uniquely marking the Agropyron elongatum gene Lr24 in wheat: a revision. Plant Breeding 123: 417-420.

10148. Lehmensiek A, Campbell AW, Williamson PM, Michalowitz M, Sutherland MW & Daggard GE 2004 QTLs for black-point resistance in wheat and identification of potential markers for use in breeding programmes. Plant Breeding 123: 410-416.

10149. Jimenez M & Dubcovsky J 1999 Chromosome location of genes affecting polyphenol oxidase activity in seeds of common and durum wheat. Plant breeding 118: 395-398.

10150. Imtiaz M, Ahmad M, Cromey MG, Griffin WB & Hampton JG 2004 Detection of molecular markers linked to the durable adult plant stripe rust resistance gene Yr18 in bread wheat (Triticum aestivum). Plant Breeding 123: 401-404.

10151. Simon MR, Ayala FM, Corda CA, Roder MS & Boerner 2004 Molecular mapping of quantitative trait loci determining resistance to septoria tritici blotch caused by Mycosphaerella graminicola. Euphytica 138: 41-48.

10152. Oelke LM & Kolmer JA 2004 Characterization of leaf rust resistance in hard red spring wheat cultivars. Plant Disease 88: 1127-1133.

10153. Lamari L, McCallum GD & DePauw RM 2005 Forensic pathology of Canadian bread wheat: the case for tan spot. Phytopathology 95: 144-152.

10154. Zhang QP, Li Q, Wang XE, Lang SP, Wang YN, Wang SL, Chen PD & Liu DJ 2005 Development and characterization of a Triticum aestivum-Haynaldia villosa translocation line T4VS.4DL conferring resistance to wheat spindle streak mosaic virus. Submitted.

10155. Singh PH & Hughes GR 2005 Genetic control of resistance to tan necrosis induced by Pyrenophora tritici- repentis. Phytopathology 95: 172-177.

10156. Sharma HC, HW Ohm & KL Perry 1997 Registration of barley yellow dwarf virus resistant wheat germplasm line P29. Crop Science 37:1032-1033.
10157. Ohm HW, Anderson JM, Sharma HC, Ayala NL, Thompson N & Uphaus JJ 2005 Registration of yellow dwarf virus resistant wheat germplasm Line P961341. Crop Science. 45: 805-806.
10158. Crasta OR, Francki MG, Bucholtz DB, Sharma HC, Zhang J, Wang R-C, Ohm HW & Anderson JM (2000) Identification and characterization of wheat-wheatgrass translocation lines and localization of barley yellow dwarf virus resistance. Genome 43: 698-706.

10159. Anderson JM 2005 Personal communication.

10160. Singh RP & Huerta-Espino J 2001 Global monitoring of wheat rusts, and assessment of genetic diversity and vulnerability of popular cultivars. In: Research Highlights of the CIMMYT Wheat Program, 1999-2000. CIMMYT, Mexico, D.F. Pp. 38-40.

10161. Gonzalez-Hernandez JL, Elias EM & Kianian SF 2004 Mapping genes for grain protein concentration and grain yield on chromosome 5B of Triticum turgidum (L.) var. dicoccoides. Euphytica 139: 217-225.
10162. Marais GF 2001 An evaluation of three Sr27 carrying wheat x rye translocations. South African Journal of Plant and Soil 18(3): 135-136.

10163. Ogbonnaya FC, Subrahmanyam NC, Moullet O, De Majnik J, Eagles HA, Brown JS, Eastwood RF, Kollmorgen J, Appels R & Lagudah ES 2001 Diagnostic DNA markers for cereal cyst nematode resistance in bread wheat. Australian Journal of Agricultural Research 52: 1367-1374.

10164. Kato K & Maeda H 1993 Gametophytic pollen sterility caused by three complementary genes in wheat, Triticum aestivum L. Proceedings of the 8^th International Wheat Genetics Symposium, Beijing (Li SS & Xin ZY, eds.) Vol 2. 871-875.

10165. Kato K 2005 Personal communication.

10166. Thomas JB, Conner RL & Graf RJ 2004 Comparison of different sources of vector resistance for controlling wheat streak mosaic in winter wheat. Crop Science 44: 125-130.

10167. Mater Y, Baenziger S, Gill K, Graybosch R, Whitcher L, Baker C, Specht J & Dweikat I 2004 Linkage mapping of powdery mildew and greenbug resistance genes in recombinant 1RS from ‘Amigo’ and ‘Kavkaz’ wheat-rye translocations of chromosome 1RS.1AL. Genome 47: 292-298.

10168. Gazza L, Nocente E, Ng PKW & Pogna NE. 2005 Genetic and biochemical analysis of common wheat cultivars lacking puroindoline a. Theoretical & Applied Genetics 110: 470-478.

10169. Weng Y, Li W, Devkota RN & Rudd JC 2005 Microsatellite markers associated with two Aegilops tauschii-derived greenbug resistance loci in wheat. Theoretical & Applied Genetics 110: 462-469.

10170. McCartney C, Somers D, McCallum B, Thomas J, Humphreys G, Menzies J & Brown D 2004 Micesatellite tagging of the leaf rust resistance gene Lr16 in wheat chromosome 2BS. Proceedings 11^th International Cereal Rusts & Powdery Mildews Conference, JI Centre, Norwich, UK. Pp A2.47.

10171. Zhu LC, Smith CM, Fritz A, Boyko EV & Flynn MB 2004 Genetic analysis and molecular mapping of a wheat gene conferring tolerance to the greenbug (Shizaphis graminum Rondani). Theoretical & Applied Genetics 109: 289-293.

10172. Paillard S, Schnurbusch T, Tiwari R, Messmer M, Winzeler M, Keller B & Schachermayr G 2004 QTL analysis of resistance to Fusarium head blight in Swiss winter wheat (Triticum aestivum L.). Theoretical & Applied Genetics 109: 323-333.

10173. McCartney CA, Somers DJ, Fedak G & Cao W 2004 Haplotype diversity at Fusarium head blight resistance QTLs in wheat. Theoretical & Applied Genetics 109: 261-271.

10174. Steiner B, Lemmens M, Griesser M, Scholz U, Schondelmaier J & Buerstmayr H 2004 Molecular mapping of resistance to Fusarium head blight in the spring wheat cultivar Frontana. Theoretical & Applied Genetics 109: 215-224.

10175. Singrun Ch, Hsam SLK, Zeller FJ, Wenzel & Mohler V 2004 Localization of a novel powdery mildew resistance gene from common wheat line RD30 in the terminal region of chromosome 7AL. Theoretical & Applied Genetics 109: 210-214.

10176. Ma ZQ, Wei JB & Cheng SH 2005 PCR-based markers for the powdery mildew resistance gene Pm4a in wheat. Theoretical & Applied Genetics 109: 104-115.

10177. Zhang ZY, Xu JS, Xu XJ, Larkin P & Xin ZY 2004 Development of novel PCR markers linked to the BYDV resistance gene Bdv2 useful in wheat for marker assisted selection. Theoretical & Applied Genetics 109: 433-439.

10178. Kolmer JA 2001 Physiologic specialization of Puccinia triticina in Canada in 1998. Plant Disease 85: 155-158.

10179. Kolmer JA & Liu JQ 2002 Inheritance of leaf rust resistance in the wheat cultivars AC Majestic, AC Splendor, and AC Karma. Canadian Journal of Plant Pathology 24: 327-331.

10180. Brown-Guedira G 2005 Personal communication.

10181. Knox R 2005 Personal communication.

10182. 10182. Watanabe N, Sugiyama K, Yamagishi Y & Sakata Y 2002 Comparative telocentric mapping of homoeologous genes for brittle rachis in tetraploid and hexalpoid wheats. Hereditas 137: 180-185.

10183. Watanabe N 2004 Triticum polonicum IC12196: a possible alternative source of Ga3-insensitive semi-dwarfism. Cereal Research Communications 32: 429-434.

10184. Ramburan VP, Pretorius ZA, Louw JH, Boyd LA, Smith PH, Boshoff WHP & Prins R 2004 A genetic analysis of adult plant resistance to stripe rust in the wheat cultivar Kariega. Theoretical & Applied Genetics 108: 1426-1433.

10185. Zhang W, Gianibelli MC, Rampling LR & Gale KR 2004 Characterization and marker development for low molecular weight glutenin genes from Glu-A3 alleles of bread wheat (Triticum aestivum L.). Theoretical & Applied Genetics 108: 1409-1419.

10186. Xu SS, Khan K, Klindworth DL, Faris JD & Nygard G 2004 Chromosome location of genes for novel glutenin subunits and gliadins in wild emmer (Triticum turgidum var. dicoccoides). Theoretical & Applied Genetics 108: 1221-1228.

10187. Saito M, Konda M, Vrinten P, Nakamura K & Nakamura T 2004 Molecular comparison of waxy null alleles in common wheat and identification of a unique null allele. Theoretical & Applied Genetics 108: 1205-1211.

10188. Anderson GR, Papa D, Peng JH, Tahir M & Lapitan NLV 2003 Genetic mapping of Dn7, a rye gene conferring resistance to Russian wheat aphid in wheat. Theoretical & Applied Genetics 107: 1297-1303.

10189. Somers DJ, Isaac P & Edwards K 2004 A high density microsatellite consensus map for bread wheat. Theoretical & Applied Genetics 109: 1105-1114.

10190. Lin F, Kong ZX, Zhu HL, Zue SL, Wu JZ, Tian DG, Wei JB, Zhang CQ & Ma ZQ 2004 Mapping QTL associated with resistance to Fusarium head blight in the Nanda2419 X Wangshuibai population. I. Type II resistance. Theoretical & Applied Genetics 109: 1404-1511.

10191. Ling HQ, Qiu JW, Singh RP & Keller B 2004 Identification and characterization of an Aegilops tauschii ortholog of the wheat leaf rust disease resistance gene Lr1. Theoretical & Applied Genetics 109: 1230-1236.

10192. Boyko E, Starkey S & Smith M 2004 Molecular mapping of Gby, a new greenbug resistance gene in bread wheat. Theoretical & Applied Genetics 108: 1230-1236.

10193. Spielmeyer W & Richards RA 2004 Comparative mapping of wheat chromosome 1AS which contains the tiller inhibition gene (tin) with rice chromosome 5S. Theoretical & Applied Genetics 109: 1303-1310.

10194. Li H, Chen X, Xin ZY, Ma YZ, Xu HJ, Chen XY & Jia X 2005 Development and identification of wheat-Haynaldia villosa 6DL.6VS chromosome translocation lines conferring resistance to powdery mildew. Plant Breeding 124: 203-205.

10195. Osa M, Kato K, Mori M, Shindo C, Torada A & Miura H 2004 Mapping QTLs for seed dormancy and the Vp1 homologue on chromosome 3A in wheat. Theoretical & Applied Genetics 106: 491-498.

10196. Butow BJ, Gale KR, Ikea J, Juhasz A, Bedo Z, Tamas L & Gianibelli MC 2004 Dissemination of the highly expressed Bx7 glutenin subunit (Glu-B1al Allele) in wheat as revealed by novel PCR marlers and RP-HPLC. Theoretical & Applied Genetics 109: 1525-1536.

10197. Juhasz A, Gardonyi M, Tamas L & Bedo Z 2003 Characterization of the promoter region of Glu-1Bx7 gene from overexpressing lines of an old Hungarian wheat variety. Proceedings of the 10^th International Wheat Genetics Symposium (Pogna NE, Romano N, Pogna EA & Galtterio G, eds.) Vol 3, 1348-1350. Instituto Sperimentale per la Cerealicoltura, Rome.

10198. Yan L, Helguera M, Kato K, Fukuyama S, Sherman J & Dubcovsky J 2004 Variation at the VRN-1 promoter region in polyploidy wheat. Theoretical & Applied Genetics 109: 1677-1686.

10199. Huang XQ, Hsam SLK, Mohler V, Roder MS & Zeller FJ 2004 Genetic mapping of three alleles at the Pm3 locus conferring powdery mildew resistance in common wheat. Genome 47:1130-1136.

10200. Zhou WC, Kolb FL, Yu JB, Bai GH, Boze LK & Domier IL 2004 Molecular characterization of Fusarium head blight resistance in Wangshuibai with simple sequence repeat and amplified fragment polymorphism markers. Genome 47: 1137-1143.

10201. Wang ZL, Li LH, He ZH, Duan XY, Zhou YL, Chen XM, Lillemo M, Singh RP, Wang H & Xia ZC 2005 Seedling and adult plant resistance to powdery mildew in Chinese bread wheat cultivars and lines. Plant Disease 89: 457-463.

10202. Fu D, Szucs P, Yan L, Helguera M, Skinner JS, Hayes P & Dubcovsky J. 2005. Large deletions in the first intron of the VRN-1 vernalization gene are associated with spring growth habit in barley and polyploid wheat. Molecular & General Genomics 273: 54-65.

10203. Marais GF, Pretorius ZA, Wellings CR, McCallum B & Marais AF 2005 Leaf and stripe rust resistance genes transferred to common wheat from Triticum dicoccoides. Euphytica: In press.

10204. Marais GF, Pretorius ZA, Wellings CR & Marais AS 2003 Transfer of rust resistance genes from Triticum species to common wheat. South African Journal of Plant and Soil 20: 193-198.

10205. Jia JZ 2004 Personal communication.

10206. Cook JP, Wichman DM, Martin JM, Bruckner PL & Talbert LE 2004 Identification of microsatellite markers associated with a stem solidness locus in wheat. Crop Science 44: 1397-1402.

10207. Haen KM, Lu HJ, Friesen TL & Faris JD 2004 Genomic targeting and high-resolution mapping of the Tsn1 gene in wheat. Crop Science 44: 951-962.

10208. Chen F, He Z-H, Xia X-C, Zhang X-Y, Lillemo M & Morris CF 2005 Molecular and biochemical characterization of puroindoline a and b alleles in Chinese landraces and historical cultivars. (submitted).

10209. Ram S, Jain N, Shoran J & Singh R 2005 New frame shift mutation in puroindoline b in Indian wheat cultivars Hyb65 and NI5439. Journal of Plant Biochemistry & Biotechnology 14: 45-48.

10210. Feng J, Ma H & Hughes GR 2004 Genetics of resistance to Stagonospora Nodorum Blotch of hexaploid wheat. Crop Science 44: 2043-2048.

10211. Xu XY, Bai GH, Carver BF, Shaner GE & Hunger RM 2005 Molecular characterization of slow leaf-rusting resistance in wheat. Crop Science 45: 758-765.

10212. Zeller FJ & Hsam SLK 1998 Progress in breeding for resistance to powdery mildew in common wheat (Triticum aestivum L.). Proceedings 9^thInternational Wheat Genetics Symposium, (Slinkard AE, ed.), University of Saskatchewan Extension Press, Saskatoon, Canada Vol 1: 178-180.

R.A. McIntosh¹, K.M. Devos², J. Dubcovsky³, W.J. Rogers⁴, C.F. Morris⁵, R. Appels⁶, and O.D. Anderson⁷

DNA Markers

Add as a note following the v2 entry: ‘All the common wheat genotypes carrying Vrn-D1a studied so far have 4.2kb deletion in intron 1 (Triple Dirk E, Chinese Spring, Norin 61, Shinchunaga, Shirasagi Komugi, Ushio Komugi) {10202}.’

tin1.

1A {10193}.

v:

Banks + tin {10193}; Oligoculm 390 {10193}; Uniculm 492 {10193}.

ma:

Xpsp2999(Glu3)-1A – 3.9cM – tin1/Xgwm136-1A – 2.4cM – Xwhs179-1A {10193}; the 350bp allele of Xgwm136-1A was diagnostic of tin1 {10193}.

Stem solidness

10201. Wang ZL, Li LH, He ZH, Duan XY, Zhou YL, Chen XM, Lillemo M, Singh RP, Wang H & Xia ZC 2005 Seedling and adult plant resistance to powdery mildew in Chinese bread wheat cultivars and lines. Plant Disease 89: 457-463.

R.A. McIntosh1, K.M. Devos2, J. Dubcovsky3, W.J. Rogers4, C.F. Morris5, R. Appels6, and O.D. Anderson7

DNA Markers

Add as a note following the v2 entry: ‘All the common wheat genotypes carrying Vrn-D1a studied so far have 4.2kb deletion in intron 1 (Triple Dirk E, Chinese Spring, Norin 61, Shinchunaga, Shirasagi Komugi, Ushio Komugi) {10202}.’

tin1.

1A {10193}.

v:

Banks + tin {10193}; Oligoculm 390 {10193}; Uniculm 492 {10193}.

ma:

Xpsp2999(Glu3)-1A­ – 3.9cM – tin1/Xgwm136-1A – 2.4cM – Xwhs179-1A {10193}; the 350bp allele of Xgwm136-1A was diagnostic of tin1 {10193}.

Stem solidness

10201. Wang ZL, Li LH, He ZH, Duan XY, Zhou YL, Chen XM, Lillemo M, Singh RP, Wang H & Xia ZC 2005 Seedling and adult plant resistance to powdery mildew in Chinese bread wheat cultivars and lines. Plant Disease 89: 457-463.

R.A. McIntosh¹, K.M. Devos², J. Dubcovsky³, W.J. Rogers⁴, C.F. Morris⁵, R. Appels⁶, and O.D. Anderson⁷

Xpsp2999(Glu3)-1A – 3.9cM – tin1/Xgwm136-1A – 2.4cM – Xwhs179-1A {10193}; the 350bp allele of Xgwm136-1A was diagnostic of tin1 {10193}.