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GrainGenes Keyword Report: linkage map

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linkage map
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ReferenceTahmasebi S et al. (2017) Mapping QTLs associated with agronomic and physiological traits under terminal drought and heat stress conditions in wheat (Triticum aestivum L.). Genome 60:26-45.
ReferencePrada D et al. (2004) Genetic control of dormancy in a Triumph/Morex cross in barley Theoretical and Applied Genetics 109:62-70.
ReferenceRuiz M et al. (2004) TropGENE-DB, a multi-tropical crop information system Nucleic Acids Research 32:364-367.
ReferenceZeller KA et al. (2004) Population differentiation and recombination in wheat scab populations of Gibberella zeae from the United States Molecular Ecology 13:563-571.
ReferenceMa JF et al. (2004) Molecular mapping of a gene responsible for Al-activated secretion of citrate in barley Journal of Experimental Botany 55:1335-1341.
ReferenceQueen RA et al. (2004) Retrotransposon-based molecular markers for linkage and genetic diversity analysis in wheat Molecular Genetics and Genomics 271:91-97.
ReferenceTalame V et al. (2004) Identification of Hordeum spontaneum QTL alleles improving field performance of barley grown under rainfed conditions Annals of Applied Biology 144:309-319.
ReferenceFrancia E et al. (2004) Two loci on chromosome 5H determine low-temperature tolerance in a 'Nure' (winter) x 'Tremois' (spring) barley map Theoretical and Applied Genetics 108:670-680.
ReferenceElberse IAM et al. (2004) Quantitative trait loci affecting growth-related traits in wild barley (Hordeum spontaneum) grown under different levels of nutrient supply Heredity 93:22-33.
ReferenceWeerasena JS et al. (2004) Conversion of an amplified fragment length polymorphism marker into a co-dominant marker in the mapping of the Rph15 gene conferring resistance to barley leaf rust, Puccinia hordei Otth Theoretical and Applied Genetics 108:712-719.
ReferenceMatsui K et al. (2004) Identification of AFLP makers linked to non-seed shattering locus (sht1) in buckwheat and conversion to STS markers for marker-assisted selection Genome 47:469-474.
ReferenceLukaszewski AJ et al. (2004) Genetic and physical mapping of homoeologous recombination points involving wheat chromosome 2B and rye chromosome 2R Genome 47:36-45.
ReferenceKlahr A et al. (2004) Enhanced power of QTL detection for Fusarium head blight resistance in wheat by means of codominant scoring of hemizygous molecular markers Molecular Breeding 13:289-300.
ReferenceStephens JL et al. (2004) Physical mapping of barley genes using an ultrasensitive fluorescence in situ hybridization technique Genome 47:179-189.
ReferenceYu JK et al. (2004) EST derived SSR markers for comparative mapping in wheat and rice Molecular Genetics and Genomics 271:742-751.
ReferenceAgrama HA et al. (2004) Molecular mapping of the crown rust resistance gene Rpc1 in barley Phytopathology 94:858-861.
ReferenceEmebiri LC et al. (2004) Mapping of QTL for malting quality attributes in barley based on a cross of parents with low grain protein concentration Field Crops Research 87:195-205.
ReferenceSalvo-Garrido H et al. (2004) The distribution of transgene insertion sites in barley determined by physical and genetic mapping Genetics 167:1371-1379.
ReferenceSayed H et al. (2004) New molecular markers linked to qualitative and quantitative powdery mildew and scald resistance genes in barley for dry areas. Euphytica 135:225-228.
ReferenceElouafi I and Nachit MM (2004) A genetic linkage map of the Durum x Triticum dicoccoides backcross population based on SSRs and AFLP markers, and QTL analysis for milling traits Theoretical and Applied Genetics 108:401-413.
ReferenceWu JZ et al. (2004) Composition and structure of the centromeric region of rice chromosome 8 Plant Cell 16:967-976.
ReferenceCanci PC et al. (2004) Validation of quantitative trait loci for Fusarium head blight and kernel discoloration in barley Molecular Breeding 14:91-104.
ReferenceSalse J et al. (2004) New in silico insight into the synteny between rice (Oryza sativa L.) and maize (Zea mays L.) highlights reshuffling and identifies new duplications in the rice genome Plant Journal 38:396-409.
ReferenceErayman M et al. (2004) Demarcating gene-rich regions of the wheat genome. Nucleic Acids Research 32:3546-3565.
ReferenceMater Y et al. (2004) Linkage mapping of powdery mildew and greenbug resistance genes on recombinant IRS from 'Amigol and 'Kavkaz' wheat-rye translocations of chromosome 1RS.1AL Genome 47:292-298.
ReferenceBehn A et al. (2004) QTL mapping for resistance against non-parasitic leaf spots in a spring barley doubled haploid population Theoretical and Applied Genetics 108:1229-1235.
ReferenceZhu S et al. (2004) Genetic analysis of quantitative trait loci for groat protein and oil content in oat Crop Science 44:254-260.
ReferenceDe Koeyer DL et al. (2004) A molecular linkage map with associated QTLs from a hulless x covered spring oat population Theoretical and Applied Genetics 108:1285-1298.
ReferenceGottwald S et al. (2004) The gibberellic-acid insensitive dwarfing gene sdw3 of barley is located on chromosome 2HS in a region that shows high colinearity with rice chromosome 7L Molecular Genetics and Genomics 271:426-436.
ReferenceKarakousis A et al. (2003) Mapping and QTL analysis of the barley population Galleon x Haruna Nijo Australian Journal of Agricultural Research 54:1131-1135.
ReferenceSasaki T (2003) Rice genome analysis: Understanding the genetic secrets of the rice plant Breeding Science 53:281-289.
ReferencePatto MCV et al. (2003) QTL mapping provides evidence for lack of association of the avoidance of leaf rust in Hordeum chilense with stomata density Theoretical and Applied Genetics 106:1283-1292.
ReferenceWight CP et al. (2003) A molecular marker map in 'Kanota' x 'Ogle' hexaploid oat (Avena spp.) enhanced by additional markers and a robust framework Genome 46:28-47.
ReferenceKarakousis A et al. (2003) Mapping and QTL analysis of the barley population Clipper x Sahara Australian Journal of Agricultural Research 54:1137-1140.
ReferenceAnderson GR et al. (2003) Genetic mapping of Dn7, a rye gene conferring resistance to the Russian wheat aphid in wheat Theoretical and Applied Genetics 107:1297-1303.
ReferenceZhu S and Kaeppler HF (2003) A genetic linkage map for hexaploid, cultivated oat (Avena sativa L.) based on an intraspecific cross 'Ogle/MAM17-5' Theoretical and Applied Genetics 107:26-35.
ReferenceRead BJ et al. (2003) Mapping and QTL analysis of the barley population Sloop x Halcyon Australian Journal of Agricultural Research 54:1145-1153.
ReferenceWu XL et al. (2003) Molecular genetic linkage maps for allotetraploid Leymus wildryes (Gramineae : Triticeae) Genome 46:627-646.
ReferenceCakir M et al. (2003) Mapping and QTL analysis of the barley population Tallon x Kaputar Australian Journal of Agricultural Research 54:1155-1162.
ReferenceEriksen L et al. (2003) Inheritance and localisation of resistance to Mycosphaerella graminicola causing septoria tritici blotch and plant height in the wheat (Triticum aestivum L.) genome with DNA markers Theoretical and Applied Genetics 107:515-527.
ReferenceSomers DJ et al. (2003) Molecular mapping of novel genes controlling Fusarium head blight resistance and deoxynivalenol accumulation in spring wheat Genome 46:555-564.
ReferenceLong NR et al. (2003) Mapping and QTL analysis of the barley population Mundah x Keel Australian Journal of Agricultural Research 54:1163-1171.
ReferenceCanci PC et al. (2003) Genetic relationship between kernel discoloration and grain protein concentration in barley Crop Science 43:1671-1679.
ReferenceKarakousis A et al. (2003) A consensus map of barley integrating SSR, RFLP, and AFLP markers Australian Journal of Agricultural Research 54:1173-1185.
ReferenceAblett GA et al. (2003) Application of SSR markers in the construction of Australian barley genetic maps Australian Journal of Agricultural Research 54:1187-1195.
ReferenceHan F et al. (2003) Quantitative genetic analysis of acid detergent fibre content in barley grain Journal of Cereal Science 38:167-172.
ReferenceKarakousis A et al. (2003) Potential of SSR markers for plant breeding and variety identification in Australian barley germplasm Australian Journal of Agricultural Research 54:1197-1210.
ReferenceMaccaferri M et al. (2003) Microsatellite analysis reveals a progressive widening of the genetic basis in the elite durum wheat germplasm Theoretical and Applied Genetics 107:783-797.
ReferencePillen K et al. (2003) Advanced backcross QTL analysis in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 107:340-352.
ReferenceEmebiri LC et al. (2003) Identification of QTLs associated with variations in grain protein concentration in two-row barley Australian Journal of Agricultural Research 54:1211-1221.
ReferenceKozub NA et al. (2003) Recombination of gliadin genes of chromosome 1D in the common wheat hybrid carrying the introgression from Aegilops cylindrica Plant Breeding 122:86-88.
ReferenceHori K et al. (2003) Efficient construction of high-density linkage map and its application to QTL analysis in barley Theoretical and Applied Genetics 107:806-813.
ReferenceRaman H et al. (2003) Development and allele diversity of microsatellite markers linked to the aluminium tolerance gene Alp in barley Australian Journal of Agricultural Research 54:1315-1321.
ReferencePatil V et al. (2003) Molecular mapping of a new gene Rrs4(CI11549) for resistance to barley scald (Rhynchosporium secalis) Molecular Breeding 12:169-183.
ReferenceBackes G et al. (2003) Localisation of genes for resistance against Blumeria graminis f.sp hordei and Puccinia graminis in a cross between a barley cultivar and a wild barley (Hordeum vulgare ssp spontaneum) line Theoretical and Applied Genetics 106:353-362.
ReferenceCastro AJ et al. (2003) Mapping and pyramiding of qualitative and quantitative resistance to stripe rust in barley Theoretical and Applied Genetics 107:922-930.
ReferenceGenger RK et al. (2003) Leaf scald resistance genes in Hordeum vulgare and Hordeum vulgare ssp spontaneum: parallels between cultivated and wild barley Australian Journal of Agricultural Research 54:1335-1342.
ReferenceZhu S and Kaeppler HF (2003) Identification of quantitative trait loci for resistance to crown rust in oat line MAM17-5 Crop Science 43:358-366.
ReferenceKai H et al. (2003) The QTL analysis of hull-cracked grain in Japanese malting barley Breeding Science 53:225-230.
ReferenceXing QH et al. (2003) Genetic analysis, molecular tagging and mapping of the thermo-sensitive genic male-sterile gene (wtms1) in wheat Theoretical and Applied Genetics 107:1500-1504.
ReferenceMammadov JA et al. (2003) Molecular mapping of leaf rust resistance gene Rph5 in barley Crop Science 43:388-393.
ReferenceDahleen LS et al. (2003) Identification of QTLs associated with Fusarium head blight resistance in Zhedar 2 barley Theoretical and Applied Genetics 108:95-104.
ReferenceCastro AJ et al. (2003) Pyramiding quantitative trait locus (QTL) alleles determining resistance to barley stripe rust: Effects on resistance at the seedling stage Crop Science 43:651-659.
ReferenceSourdille P et al. (2003) An update of the Courtot x Chinese Spring intervarietal molecular marker linkage map for the QTL detection of agronomic traits in wheat Theoretical and Applied Genetics 106:530-538.
ReferenceLi JZ et al. (2003) Development and genetic mapping of 127 new microsatellite markers in barley Theoretical and Applied Genetics 107:1021-1027.
ReferenceMalik R et al. (2003) Genetic mapping of wheat curl mite resistance genes Cmc3 and Cmc4 in common wheat Crop Science 43:644-650.
ReferenceAlm V et al. (2003) A linkage map of meadow fescue (Festuca pratensis Huds.) and comparative mapping with other Poaceae species Theoretical and Applied Genetics 108:25-40.
ReferenceBildanova LL et al. (2003) Specific features of the nuclear genome recombination in backcross progenies of barley-wheat hybrids Hordeum vulgare L. (2n=14) x Triticum aestivum L. (2n=42) Russian Journal of Genetics 39:1420-1425.
ReferenceHuang XQ et al. (2003) Microsatellite mapping of the powdery mildew resistance gene Pm5e in common wheat (Triticum aestivum L.) Theoretical and Applied Genetics 106:858-865.
ReferenceKikuchi S et al. (2003) Efficient fine mapping of the naked caryopsis gene (nud) by HEGS (High Efficiency Genome Scanning)/AFLP in barley Theoretical and Applied Genetics 108:73-78.
ReferencePozzi C et al. (2003) Integration of a barley (Hordeum vulgare) molecular linkage, map with the position of genetic loci hosting 29 developmental mutants Heredity 90:390-396.
ReferenceMesfin A et al. (2003) Quantitative trait loci for fusarium head blight resistance in barley detected in a two-rowed by six-rowed population Crop Science 43:307-318.
ReferenceBarr AR et al. (2003) Mapping and QTL analysis of the barley population Alexis x Sloop Australian Journal of Agricultural Research 54:1117-1123.
ReferenceSimons KJ et al. (2003) Detailed mapping of the species cytoplasm-specific (scs) gene in durum wheat Genetics 165:2129-2136.
ReferenceStracke S et al. (2003) Development of PCR-based markers linked to dominant genes for male-fertility restoration in Pampa CMS of rye (Secale cereale L.) Theoretical and Applied Genetics 106:1184-1190.
ReferenceFaris JD and Gill BS (2002) Genomic targeting and high-resolution mapping of the domestication gene Q in wheat Genome 45:706-718.
ReferenceCheng DW et al. (2002) Genetic and physical mapping of Lrk10-like receptor kinase sequences in hexaploid oat (Avena sativa L.) Genome 45:100-109.
ReferenceWu JZ et al. (2002) A comprehensive rice transcript map containing 6591 expressed sequence tag sites Plant Cell 14:525-535.
ReferenceWeng Y and Lazar MD (2002) Comparison of homoeologous group-6 short arm physical maps of wheat and barley reveals a similar distribution of recombinogenic and gene-rich regions Theoretical and Applied Genetics 104:1078-1085.
ReferenceJiang J and Wang S (2002) Identification of a 118-kb DNA fragment containing the locus of blast resistance gene Pi-2(t) in rice Molecular Genetics and Genomics 268:249-252.
ReferencePal N et al. (2002) Development and characterization of microsatellite and RFLP-derived PCR markers in oat Crop Science 42:912-918.
ReferenceGroos C et al. (2002) Study of the relationship between pre-harvest sprouting and grain color by quantitative trait loci analysis in a whitexred grain bread-wheat cross Theoretical and Applied Genetics 104:39-47.
ReferenceKagawa N et al. (2002) Tetrad-FISH analysis reveals recombination suppression by interstitial heterochromatin sequences in rye (Secale cereale) Molecular Genetics and Genomics 267:10-15.
ReferenceBjornstad A et al. (2002) Resistance to scald (Rhynchosporium secalis) in barley (Hordeum vulgare) studied by near-isogenic lines: I. Markers and differential isolates Phytopathology 92:710-720.
ReferenceZeng L et al. (2002) Fine genetic mapping and physical delimitation of the lesion mimic gene Spl11 to a 160-kb DNA segment of the rice genome Molecular Genetics and Genomics 268:253-261.
ReferenceBlanco A et al. (2002) Detection of grain protein content QTLs across environments in tetraploid wheats Plant Molecular Biology 48:615-623.
ReferenceMing R et al. (2002) Construction of a Saccharum consensus genetic map from two interspecific crosses Crop Science 42:570-583.
ReferenceSawahel WA and Hassan AH (2002) Generation of transgenic wheat plants producing high levels of the osmoprotectant proline Biotechnology Letters 24:721-725.
ReferenceBrugmans B et al. (2002) A novel method for the construction of genome wide transcriptome maps Plant Journal 31:211-222.
ReferenceSchloss SJ et al. (2002) Characterization of RFLP probe sequences for gene discovery and SSR development in Sorghum bicolor (L.) Moench Theoretical and Applied Genetics 105:912-920.
ReferenceMago R et al. (2002) Identification and mapping of molecular markers linked to rust resistance genes located on chromosome 1RS of rye using wheat-rye translocation lines Theoretical and Applied Genetics 104:1317-1324.
ReferenceSandhu D and Gill KS (2002) Gene-containing regions of wheat and the other grass genomes Plant Physiology 128:803-811.
ReferenceMatus IA and Hayes PM (2002) Genetic diversity in three groups of barley germplasm assessed by simple sequence repeats Genome 45:1095-1106.
ReferenceJurgenson JE et al. (2002) A genetic map of Gibberella zeae (Fusarium graminearum) Genetics 160:1451-1460.
ReferenceKomatsuda T and Mano Y (2002) Molecular mapping of the intermedium spike-c (int-c) and non-brittle rachis 1 (btr1) loci in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 105:85-90.
ReferenceIrigoyen ML et al. (2002) Fluorescence in situ hybridization mapping of Avena sativa L. cv. SunII and its monosomic lines using cloned repetitive DNA sequences Genome 45:1230-1237.
ReferenceLiu ZY et al. (2002) Molecular characterization of a novel powdery mildew resistance gene Pm30 in wheat originating from wild emmer. Euphytica 123:21-29.
ReferenceSee D et al. (2002) Mapping genes controlling variation in barley grain protein concentration Crop Science 42:680-685.
ReferenceSirithunya P et al. (2002) Quantitative trait loci associated with leaf and neck blast resistance in recombinant inbred line population of rice (Oryza sativa) DNA Research 9:79-88.
ReferenceNagy ED et al. (2002) Identification of wheat-barley translocations by sequential GISH and two-colour FISH in combination with the use of genetically mapped barley SSR markers Genome 45:1238-1247.
ReferenceSayed H et al. (2002) Segregation distortion in doubled haploid lines of barley (Hordeum vulgare L.) detected by simple sequence repeat (SSR) markers. Euphytica 125:265-272.
ReferenceOtto CD et al. (2002) Genetic dissection of a major Fusarium head blight QTL in tetraploid wheat Plant Molecular Biology 48:625-632.
ReferenceSaal B and Wricke G (2002) Clustering of amplified fragment length polymorphism markers in a linkage map of rye Plant Breeding 121:117-123.
ReferenceSourdille P et al. (2002) Molecular and physical mapping of genes affecting awning in wheat Plant Breeding 121:320-324.
ReferenceKema GHJ et al. (2002) A combined amplified fragment length polymorphism and randomly amplified polymorphism DNA genetic linkage map of Mycosphaerella graminicola, the septoria tritici leaf blotch pathogen of wheat Genetics 161:1497-1505.
ReferenceLi WL et al. (2002) Chromosomal locations and genetic relationships of tiller and spike characters in wheat. Euphytica 125:357-366.
ReferenceKantety RV et al. (2002) Data mining for simple sequence repeats in expressed sequence tags from barley, maize, rice, sorghum and wheat Plant Molecular Biology 48:501-510.
ReferenceJensen J et al. (2002) Quantitative trait loci for scald resistance in barley localized by a non-interval mapping procedure Plant Breeding 121:124-128.
ReferenceChoi DW et al. (2002) Barley Cbf3 gene identification, expression pattern, and map location Plant Physiology 129:1781-1787.
ReferenceHazen SP et al. (2002) AFLP in Triticum aestivum L.: patterns of genetic diversity and genome distribution. Euphytica 125:89-102.
ReferenceEujayl I et al. (2002) Isolation of EST-derived microsatellite markers for genotyping the A and B genomes of wheat Theoretical and Applied Genetics 104:399-407.
ReferenceAshikari M and Matsuoka M (2002) Application of rice genomics to plant biology and breeding Botanical Bulletin of Academia Sinica 43:1-11.
ReferenceGonzalez C et al. (2002) Chromosomal location of 46 new RAPD markers in rye (Secale cereale L.) Genetica 115:205-211.
ReferenceGronnerod S et al. (2002) Genetic analysis of resistance to barley scald (Rhynchosporium secalis) in the Ethiopian line 'Abyssinian' (CI668). Euphytica 126:235-250.
ReferenceHessler TG et al. (2002) Association of a lipoxygenase locus, Lpx-B1, with variation in lipoxygenase activity in durum wheat seeds Crop Science 42:1695-1700.
ReferenceMonna L et al. (2002) Genetic dissection of a genomic region for a quantitative trait locus, Hd3, into two loci, Hd3a and Hd3b, controlling heading date in rice Theoretical and Applied Genetics 104:772-778.
ReferenceGudu S et al. (2002) RFLP mapping of a Hordeum bulbosum gene highly expressed in pistils and its relationship to homoeologous loci in other Gramineae species Theoretical and Applied Genetics 105:271-276.
ReferenceKing J et al. (2002) A demonstration of a 1 : 1 correspondence between chiasma frequency and recombination using a Lolium perenne/Festuca pratensis substitution Genetics 161:307-314.
ReferenceQu L and Hancock JF (2002) Pitfalls of genetic analysis using a doubled-haploid backcrossed to its parent Theoretical and Applied Genetics 105:392-396.
ReferenceIslam-Faridi MN et al. (2002) A molecular cytogenetic map of sorghum chromosome 1: Fluorescence in situ hybridization analysis with mapped bacterial artificial chromosomes Genetics 161:345-353.
ReferenceRaman H et al. (2002) Identification of AFLP and microsatellite markers linked with an aluminium tolerance gene in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 105:458-464.
ReferenceQi LL et al. (2002) A strategy for enhancing recombination in proximal regions of chromosomes Chromosome Research 10:645-654.
ReferenceSong QJ et al. (2002) Characterization of trinucleotide SSR motifs in wheat Theoretical and Applied Genetics 104:286-293.
ReferenceMaestri E et al. (2002) Genomic analysis of cultivated barley (Hordeum vulgare) using sequence-tagged molecular markers. Estimates of divergence based on RFLP and PCR markers derived from stress-responsive genes, and simple-sequence repeats (SSRs) Molecular Genetics and Genomics 267:186-201.
ReferenceBullrich L et al. (2002) Mapping of a thermo-sensitive earliness per se gene on Triticum monococcum chromosome 1A(m) Theoretical and Applied Genetics 105:585-593.
ReferenceCheng DW et al. (2002) Modified expression of two receptor kinase genes in hexaploid oat (Avena sativa L.) on inoculation with crown rust Physiological and Molecular Plant Pathology 61:281-288.
ReferenceIvandic V et al. (2002) Analysis of simple sequence repeats (SSRs) in wild barley from the Fertile Crescent: associations with ecology, geography and flowering time Plant Molecular Biology 48:511-527.
ReferenceThorogood D et al. (2002) Self-incompatibility in ryegrass 12. Genotyping and mapping the S and Z loci of Lolium perenne L Heredity 88:385-390.
ReferenceKurata N et al. (2002) Rice genome organization: The centromere and genome interactions Annals of Botany 90:427-435.
ReferenceTeulat B et al. (2002) QTLs for grain carbon isotope discrimination in field-grown barley Theoretical and Applied Genetics 106:118-126.
ReferenceBoyko E et al. (2002) A high-density cytogenetic map of the Aegilops tauschii genome incorporating retrotransposons and defense-related genes: insights into cereal chromosome structure and function Plant Molecular Biology 48:767-790.
ReferenceLoarce Y et al. (2002) Assignment of oat linkage groups to microdissected Avena strigosa chromosomes Theoretical and Applied Genetics 104:1011-1016.
ReferenceKunzel G and Waugh R (2002) Integration of microsatellite markers into the translocation-based physical RFLP map of barley chromosome 3H Theoretical and Applied Genetics 105:660-665.
ReferenceSandhu D and Gill KS (2002) Structural and functional organization of the '1S0.8 gene-rich region' in the Triticeae Plant Molecular Biology 48:791-804.
ReferenceLiu XM et al. (2002) Identification of microsatellite markers linked to Russian wheat aphid resistance genes Dn4 and Dn6 Theoretical and Applied Genetics 104:1042-1048.
ReferenceTaenzler B et al. (2002) Molecular linkage map of Einkorn wheat: mapping of storage-protein and soft-glume genes and bread-making quality QTLs Genetical Research 80:131-143.
ReferenceMarquez-Cedillo LA et al. (2001) QTL analysis of agronomic traits in barley based on the doubled haploid progeny of two elite North American varieties representing different germplasm groups Theoretical and Applied Genetics 103:625-637.
ReferenceMatsui K et al. (2001) Molecular mapping of a fertility restoration locus (Rfm1) for cytoplasmic male sterility in barley (Hordeum vulgare L.) Theoretical and Applied Genetics 102:477-482.
ReferenceZhou Y et al. (2001) Genetic dissection of heading time and its components in rice Theoretical and Applied Genetics 102:1236-1242.
ReferenceKremer CA et al. (2001) A restriction fragment length polymorphism based linkage map of a diploid Avena recombinant inbred line population Genome 44:192-204.
ReferenceLiu YS et al. (2001) Mapping QTLs for defective female gametophyte development in an inter-subspecific cross in Oryza sativa L Theoretical and Applied Genetics 102:1243-1251.
ReferenceBlakey CA et al. (2001) Apomixis in Tripsacum: Comparative mapping of a multigene phenomenon Genome 44:222-230.
ReferenceHernandez P et al. (2001) A core genetic map of Hordeum chilense and comparisons with maps of barley (Hordeum vulgare) and wheat (Triticum aestivum) Theoretical and Applied Genetics 102:1259-1264.
ReferenceEbana K et al. (2001) Analysis of QTL associated with the allelopathic effect of rice using water-soluble extracts Breeding Science 51:47-51.
ReferenceGill KS and Sandhu D (2001) Candidate-gene cloning and targeted marker enrichment of wheat chromosomal regions using RNA fingerprinting - differential display Genome 44:633-639.
ReferenceElouafi I et al. (2001) Identification of a microsatellite on chromosome 7B showing a strong linkage with yellow pigment in durum wheat (Triticum turgidum L. var. durum) Hereditas 135:255-261.
ReferenceSasaki T (2001) The progress in rice genomics. Euphytica 118:103-111.
ReferenceMa XF et al. (2001) Molecular linkage mapping in rye (Secale cereale L.) Theoretical and Applied Genetics 102:517-523.
ReferenceYagi T et al. (2001) QTL mapping of spikelet number in rice (Oryza sativa L.) Breeding Science 51:53-56.
ReferenceHoarau JY et al. (2001) Genetic dissection of a modern sugarcane cultivar (Saccharum spp.). I. Genome mapping with AFLP markers Theoretical and Applied Genetics 103:84-97.
ReferenceCosta JM et al. (2001) Molecular mapping of the Oregon Wolfe Barleys: a phenotypically polymorphic doubled-haploid population Theoretical and Applied Genetics 103:415-424.
ReferenceSandhu D et al. (2001) Identification and physical localization of useful genes and markers to a major gene-rich region on wheat group 1S chromosomes Genetics 157:1735-1747.
ReferenceFukuoka S and Okuno K (2001) QTL analysis and mapping of pi21, a recessive gene for field resistance to rice blast in Japanese upland rice Theoretical and Applied Genetics 103:185-190.
ReferenceDelseny M et al. (2001) Rice genomics: Present and future Plant Physiology and Biochemistry 39:323-334.
ReferenceMilla MAR and Gustafson JP (2001) Genetic and physical characterization of chromosome 4DL in wheat Genome 44:883-892.
ReferenceBres-Patry C et al. (2001) Heredity and genetic mapping of domestication-related traits in a temperate japonica weedy rice Theoretical and Applied Genetics 102:118-126.
ReferenceTaylor C et al. (2001) The development of sequence-tagged sites (STSs) in Lolium perenne L.: the application of primer sets derived from other genera Theoretical and Applied Genetics 103:648-658.
ReferenceNachit MM et al. (2001) Molecular linkage map for an intraspecific recombinant inbred population of durum wheat (Triticum turgidum L. var. durum) Theoretical and Applied Genetics 102:177-186.
ReferenceMasojc P et al. (2001) Extending a RFLP-based genetic map of rye using random amplified polymorphic DNA (RAPD) and isozyme markers Theoretical and Applied Genetics 102:1273-1279.
ReferenceTuruspekov Y et al. (2001) Genetic diversity of Japanese barley cultivars based on SSR analysis Breeding Science 51:215-218.
ReferenceLiu XM et al. (2001) Microsatellite markers linked to six Russian wheat aphid resistance genes in wheat Theoretical and Applied Genetics 102:504-510.
ReferenceHayden MJ et al. (2001) Targetting microsatellites (SSRs) in genetic linkage maps of bread wheat Australian Journal of Agricultural Research 52:1143-1152.
ReferenceKorzun V et al. (2001) A genetic map of rye (Secale cereale L.) combining RFLP, isozyme, protein, microsatellite and gene loci Theoretical and Applied Genetics 102:709-717.
ReferenceColeman RD et al. (2001) Identification of quantitative trait loci for traits conferring weed competitiveness in wheat (Triticum aestivum L.) Australian Journal of Agricultural Research 52:1235-1246.
ReferenceSalvo-Garrido H et al. (2001) An RFLP map of diploid Hordeum bulbosum L. and comparison with maps of barley (H-vulgare L.) and wheat (Triticum aestivum L.) Theoretical and Applied Genetics 103:869-880.
ReferenceCheng ZK et al. (2001) Development and applications of a complete set of rice telotrisomics Genetics 157:361-368.
ReferenceCheng ZK et al. (2001) Toward a cytological characterization of the rice genome Genome Research 11:2133-2141.
ReferenceMa XF et al. (2001) Physical mapping of restriction fragment length polymorphism (RFLP) markers in homoeologous groups 1 and 3 chromosomes of wheat by in situ hybridization Genome 44:401-412.
ReferenceBlanco A et al. (2001) Detection of quantitative trait loci for grain yield and yield components across environments in durum wheat Cereal Research Communications 29:237-244.
ReferencePortyanko VA et al. (2001) A linkage map of hexaploid oat based on grass anchor DNA clones and its relationship to other oat maps Genome 44:249-265.
ReferenceChalmers KJ et al. (2001) Construction of three linkage maps in bread wheat, Triticum aestivum Australian Journal of Agricultural Research 52:1089-1119.
ReferenceMacaulay M et al. (2001) A representative, highly informative 'genotyping set' of barley SSRs Theoretical and Applied Genetics 102:801-809.
ReferenceLi WL et al. (2001) Isolation and characterization of novel cDNA clones of acidic chitinases and beta-1,3-glucanases from wheat spikes infected by Fusarium graminearum Theoretical and Applied Genetics 102:353-362.
ReferenceGroh S et al. (2001) Comparative AFLP mapping in two hexaploid oat populations Theoretical and Applied Genetics 102:876-884.
ReferenceIshii T et al. (2001) Evaluation of allelic diversity at chloroplast microsatellite loci among common wheat and its ancestral species Theoretical and Applied Genetics 103:896-904.
ReferenceMano Y et al. (2001) Construction of a genetic map of barley (Hordeum vulgare L.) cross 'Azumamugi' x 'Kanto Nakate Gold' using a simple and efficient amplified fragment-length polymorphism system Genome 44:284-292.
ReferenceVentelon M et al. (2001) A direct comparison between the genetic maps of sorghum and rice Theoretical and Applied Genetics 102:379-386.
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