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A consensus map of barley integrating SSR, RFLP, and AFLP markers
A. Karakousis, J. P. Gustafson, K. J. Chalmers, A. R. Barr and P. Langridge
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Robinson Louise H.,
Healy Peter,
Stewart Doug C.,
Eglinton Jason K.,
Ford Chris M., Evans David E.
Journal of Cereal Science. 2007 45(3). p.335
Genetic Analyses of Wheat and Molecular Marker-Assisted Breeding, Volume 1 (2015)
AB-QTL analysis in spring barley. I. Detection of resistance genes against powdery mildew, leaf rust and scald introgressed from wild barley
von Korff M.,
Wang H.,
Léon J., Pillen K.
Theoretical and Applied Genetics. 2005 111(3). p.583
Identification of quantitative trait loci contributing to yield and seed quality parameters under terminal drought in barley advanced backcross lines
Kalladan Rajesh,
Worch Sebastian,
Rolletschek Hardy,
Harshavardhan Vokkaliga T.,
Kuntze Lissy,
Seiler Christiane,
Sreenivasulu Nese, Röder Marion S.
Molecular Breeding. 2013 32(1). p.71
Linkage map construction involving a reciprocal translocation
Farré A.,
Lacasa Benito I.,
Cistué L.,
de Jong J. H.,
Romagosa I., Jansen J.
Theoretical and Applied Genetics. 2011 122(5). p.1029
Quantitative trait locus analysis and construction of consensus genetic map for drought tolerance traits based on three recombinant inbred line populations in cultivated groundnut (Arachis hypogaea L.)
Gautami B.,
Pandey M. K.,
Vadez V.,
Nigam S. N.,
Ratnakumar P.,
Krishnamurthy L.,
Radhakrishnan T.,
Gowda M. V. C.,
Narasu M. L.,
Hoisington D. A.,
Knapp S. J., Varshney R. K.
Molecular Breeding. 2012 30(2). p.757
A Genetic Map Constructed Using a Doubled Haploid Population Derived from Two Elite Chinese Common Wheat Varieties
Zhang Kun‐Pu,
Zhao Liang,
Tian Ji‐Chun,
Chen Guang‐Feng,
Jiang Xiao‐Ling, Liu Bin
Journal of Integrative Plant Biology. 2008 50(8). p.941
Genomics and Breeding for Climate-Resilient Crops (2013)
The CesA Gene Family of Barley. Quantitative Analysis of Transcripts Reveals Two Groups of Co-Expressed Genes
Burton Rachel A.,
Shirley Neil J.,
King Brendon J.,
Harvey Andrew J., Fincher Geoffrey B.
Plant Physiology. 2004 134(1). p.224
An introduction to markers, quantitative trait loci (QTL) mapping and marker-assisted selection for crop improvement: The basic concepts
Collard B. C. Y.,
Jahufer M. Z. Z.,
Brouwer J. B., Pang E. C. K.
Euphytica. 2005 142(1-2). p.169
Molecular diversity and association mapping of quantitative traits in Tibetan wild and worldwide originated barley (Hordeum vulgare L.) germplasm
Sun Dongfa,
Ren Wenbin,
Sun Genlou, Peng Junhua
Euphytica. 2011 178(1). p.31
QTL Mapping for Wheat Flour Color with Additive, Epistatic, and QTL×Environmental Interaction Effects
LI Wei-hua,
LIU Wei,
LIU Li,
YOU Min-shan,
LIU Guang-tian, LI Bao-yun
Agricultural Sciences in China. 2011 10(5). p.651
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Wenzl Peter,
Li Haobing,
Carling Jason,
Zhou Meixue,
Raman Harsh,
Paul Edie,
Hearnden Phillippa,
Maier Christina,
Xia Ling,
Caig Vanessa,
Ovesná Jaroslava,
Cakir Mehmet,
Poulsen David,
Wang Junping,
Raman Rosy,
Smith Kevin P,
Muehlbauer Gary J,
Chalmers Ken J,
Kleinhofs Andris,
Huttner Eric, Kilian Andrzej
BMC Genomics. 2006 7(1).
Rapid marker-assisted development of advanced recombinant lines from barley starch mutants
Howell Phil,
Leigh Fiona,
Bates Ruth,
Gosman Nick,
Trafford Kay,
Powell Wayne,
Smith Alison M., Greenland Andy
Molecular Breeding. 2014 33(1). p.243
A high-density microsatellite consensus map for bread wheat (Triticum aestivum L.)
Somers Daryl J.,
Isaac Peter, Edwards Keith
Theoretical and Applied Genetics. 2004 109(6). p.1105
Identification of QTLs Associated with Oil Content in a High-Oil Brassica napus Cultivar and Construction of a High-Density Consensus Map for QTLs Comparison in B. napus
Wang Xiaodong,
Wang Hao,
Long Yan,
Li Dianrong,
Yin Yongtai,
Tian Jianhua,
Chen Li,
Liu Liezhao,
Zhao Weiguo,
Zhao Yajun,
Yu Longjiang,
Li Maoteng, Zhang Xianlong
PLoS ONE. 2013 8(12). p.e80569
Genetic mapping and QTL analysis of disease resistance traits in the barley population Baudin×AC Metcalfe
Cakir Mehmet,
Gupta Sanjiv,
Li Chengdao,
Hayden Matthew,
Mather Diane E.,
Ablett Gary A.,
Platz Greg J.,
Broughton Sue,
Chalmers Ken J.,
Loughman Robert,
Jones Michael G. K., Lance Reg C. M.
Crop and Pasture Science. 2011 62(2). p.152
Identification of genetic regions associated with black point in barley
Tah Priya R.,
Lehmensiek A.,
Fox Glen P.,
Mace Emma,
Sulman Maria,
Bloustein Gary, Daggard Grant E.
Field Crops Research. 2010 115(1). p.61
Features of SNP and SSR diversity in a set of ICARDA barley germplasm collection
Varshney R. K.,
Baum M.,
Guo P.,
Grando S.,
Ceccarelli S., Graner A.
Molecular Breeding. 2010 26(2). p.229
Quantitative Trait Loci (QTL) of Seed Zn Accumulation in Barley Population Clipper X Sahara
Sadeghzadeh Behzad,
Rengel Zed, Li Chengdao
Journal of Plant Nutrition. 2015 38(11). p.1672
Molecular genetic analysis of flour color using a doubled haploid population in bread wheat (Triticum aestivum L.)
Zhang Kun-Pu,
Chen Guang-Feng,
Zhao Liang,
Liu Bin,
Xu Xian-Bin, Tian Ji-Chun
Euphytica. 2009 165(3). p.471
Genetic linkage map of cassava (Manihot esculentaCrantz) based on AFLP and SSR markers
Kunkeaw S.,
Tangphatsornruang S.,
Smith D. R., Triwitayakorn K.
Plant Breeding. 2010 129(1). p.112
A consensus map of rye integrating mapping data from five mapping populations
Gustafson J. Perry,
Ma Xue-Feng,
Korzun Viktor, Snape John W.
Theoretical and Applied Genetics. 2009 118(4). p.793
Mapping QTLs with epistatic effects and QTL × environment interactions for plant height using a doubled haploid population in cultivated wheat
Zhang Kunpu,
Tian Jichun,
Zhao Liang, Wang Shanshan
Journal of Genetics and Genomics. 2008 35(2). p.119
Mapping of powdery mildew resistance genes in a newly determined accession of Hordeum vulgare ssp. spontaneum
Teturová K.,
Řepková J.,
Lízal P., Dreiseitl A.
Annals of Applied Biology. 2010 156(2). p.157
Quantitative trait locus analysis and construction of consensus genetic map for foliar disease resistance based on two recombinant inbred line populations in cultivated groundnut (Arachis hypogaea L.)
Sujay V.,
Gowda M. V. C.,
Pandey M. K.,
Bhat R. S.,
Khedikar Y. P.,
Nadaf H. L.,
Gautami B.,
Sarvamangala C.,
Lingaraju S.,
Radhakrishan T.,
Knapp S. J., Varshney R. K.
Molecular Breeding. 2012 30(2). p.773
Detection of quantitative trait loci for heading date based on the doubled haploid progeny of two elite Chinese wheat cultivars
Zhang Kunpu,
Tian Jichun,
Zhao Liang,
Liu Bin, Chen Guangfeng
Genetica. 2009 135(3). p.257
Quantitative Trait Loci for Multiple Disease Resistance in Wild Barley
Yun S. J.,
Gyenis L.,
Hayes P. M.,
Matus I.,
Smith K. P.,
Steffenson B. J., Muehlbauer G. J.
Crop Science. 2005 45(6). p.2563
Mapping of a novel QTL for resistance to cereal cyst nematode in wheat
Williams K. J.,
Willsmore K. L.,
Olson S.,
Matic M., Kuchel H.
Theoretical and Applied Genetics. 2006 112(8). p.1480
Quantitative trait loci for water-use efficiency in barley (Hordeum vulgare L.) measured by carbon isotope discrimination under rain-fed conditions on the Canadian Prairies
Chen Jing,
Chang Scott X., Anyia Anthony O.
Theoretical and Applied Genetics. 2012 125(1). p.71
Spring Barley Resistance and Tolerance to the Cereal Cyst Nematode Heterodera avenae
Marshall Juliet M.,, Smiley Richard W.
Plant Disease. 2016 100(2). p.396
Comparative analysis of genetic diversity between Qinghai-Tibetan wild and Chinese landrace barley
Scoles Graham,
Gong Xue,
Westcott Sharon,
Li Chengdao,
Yan Guijun,
Lance Reg, Sun Dongfa
Genome. 2009 52(10). p.849
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Marcel T. C.,
Varshney R. K.,
Barbieri M.,
Jafary H.,
de Kock M. J. D.,
Graner A., Niks R. E.
Theoretical and Applied Genetics. 2007 114(3). p.487
QTL Mapping for Dough Mixing Characteristics in a Recombinant Inbred Population Derived from a Waxy × Strong Gluten Wheat (Triticum aestivum L.)
ZHENG Fei-fei,
DENG Zhi-ying,
SHI Cui-lan,
ZHANG Xin-ye, TIAN Ji-chun
Journal of Integrative Agriculture. 2013 12(6). p.951
A genetic map of 1,000 SSR and DArT markers in a wide barley cross
Hearnden P. R.,
Eckermann P. J.,
McMichael G. L.,
Hayden M. J.,
Eglinton J. K., Chalmers K. J.
Theoretical and Applied Genetics. 2007 115(3).
Molecular analysis of cultivated naked barley (Hordeum vulgare L.) from Qinghai-Tibet Plateau in China using SSR markers
Pan Zhifen,
Deng Guangbing,
Zhai Xuguang,
Long Hai,
Tang Yawei,
Qiang Xiaolin, Yu Maoqun
Frontiers of Agriculture in China. 2008 2(4). p.372
Use of new EST markers to elucidate the genetic differences in grain protein content between European and North American two-rowed malting barleys
Moralejo M.,
Swanston J. S.,
Mu�oz P.,
Prada D.,
El�a M.,
Russell J. R.,
Ramsay L.,
Cistu� L.,
Codesal P.,
Casas A. M.,
Romagosa I.,
Powell W., Molina-Cano J. L.
Theoretical and Applied Genetics. 2004 110(1). p.116
A novel barley scald resistance gene: genetic mapping of the Rrs15 scald resistance gene derived from wild barley, Hordeum vulgare ssp. spontaneum
Genger R. K.,
Nesbitt K.,
Brown A. H. D.,
Abbott D. C., Burdon J. J.
Plant Breeding. 2005 124(2). p.137
Most significant genome regions involved in the control of earliness traits in bread wheat, as revealed by QTL meta-analysis
Hanocq E.,
Laperche A.,
Jaminon O.,
Lainé A. -L., Le Gouis J.
Theoretical and Applied Genetics. 2007 114(3). p.569
New eSSR and gSSR markers added to Australian barley maps
Willsmore Kerrie L.,
Eckermann Paul,
Varshney Rajeev K.,
Graner Andreas,
Langridge Peter,
Pallotta Margaret,
Cheong Judy, Williams Kevin J.
Australian Journal of Agricultural Research. 2006 57(9). p.953
Dissection of the Barley 2L1.0 Region Carrying the ‘Laevigatum’ Quantitative Resistance Gene to Leaf Rust Using Near-Isogenic Lines (NIL) and subNIL
Marcel Thierry C.,
Aghnoum Reza,
Durand Jérôme,
Varshney Rajeev K., Niks Rients E.
Molecular Plant-Microbe Interactions®. 2007 20(12). p.1604
Analysis of the arabinoxylan arabinofuranohydrolase gene family in barley does not support their involvement in the remodelling of endosperm cell walls during development
Laidlaw Hunter K. C.,
Lahnstein Jelle,
Burton Rachel A.,
Fincher Geoffrey B., Jobling Stephen A.
Journal of Experimental Botany. 2012 63(8). p.3031
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Barley Genomics: An Overview
Sreenivasulu Nese,
Graner Andreas, Wobus Ulrich
International Journal of Plant Genomics. 2008 2008 p.1
SSR analysis of introgression of drought tolerance from the genome of Hordeum spontaneum into cultivated barley (Hordeum vulgare ssp vulgare)
Lakew B.,
Henry R. J.,
Eglinton J.,
Baum M.,
Ceccarelli S., Grando S.
Euphytica. 2013 191(2). p.231
Genetic and molecular analyses of resistance to a variant of Puccinia striiformis in barley
Golegaonkar Prashant G.,
Wellings Colin R.,
Singh Davinder, Park Robert F.
Journal of Applied Genetics. 2013 54(1). p.1
A high-resolution consensus linkage map for barley based on GBS-derived genotypes
Abed Amina,
Badea Ana,
Beattie Aaron,
Khanal Raja,
Tucker James, Belzile François
Genome. 2022 65(2). p.83
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Burton Rachel A.,
Ma Gang,
Baumann Ute,
Harvey Andrew J.,
Shirley Neil J.,
Taylor Jillian,
Pettolino Filomena,
Bacic Antony,
Beatty Mary,
Simmons Carl R.,
Dhugga Kanwarpal S.,
Rafalski J. Antoni,
Tingey Scott V., Fincher Geoffrey B.
Plant Physiology. 2010 153(4). p.1716
Advance in Barley Sciences (2013)
Seed dormancy in barley: identifying superior genotypes through incorporating epistatic interactions
Bonnardeaux Y.,
Li C.,
Lance R.,
Zhang X. Q.,
Sivasithamparam K., Appels R.
Australian Journal of Agricultural Research. 2008 59(6). p.517
Genetic diversity and population structure assessment of Western Canadian barley cooperative trials
Capo-chichi Ludovic J. A.,
Elakhdar Ammar,
Kubo Takahiko,
Nyachiro Joseph,
Juskiw Patricia,
Capettini Flavio,
Slaski Jan J.,
Ramirez Guillermo Hernandez, Beattie Aaron D.
Frontiers in Plant Science. 2023 13
Analysis of the (1,3)-β-d-glucan synthase gene family of barley
Schober Michael S.,
Burton Rachel A.,
Shirley Neil J.,
Jacobs Andrew K., Fincher Geoffrey B.
Phytochemistry. 2009 70(6). p.713
Genetic diversity, population structure and relationship of Ethiopian barley (Hordeum vulgare L.) landraces as revealed by SSR markers
Dido Allo A.,
Krishna M. S. R.,
Assefa Ermias,
Degefu Dawit T.,
Singh B. J. K., Tesfaye Kassahun
Journal of Genetics. 2022 101(1).
Joint analysis for heading date QTL in small interconnected barley populations
Cuesta-Marcos Alfonso,
Casas Ana M.,
Yahiaoui Samia,
Gracia M. Pilar,
Lasa José M., Igartua Ernesto
Molecular Breeding. 2008 21(3). p.383
Development and assessment of simple PCR markers for SNP genotyping in barley
Hayden Matthew J.,
Tabone T., Mather D. E.
Theoretical and Applied Genetics. 2009 119(5). p.939
Association mapping for yield and yield-contributing traits in barley under drought conditions with genome-based SSR markers
Abou-Elwafa Salah Fatouh
Comptes Rendus. Biologies. 2016 339(5-6). p.153
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Lakew Berhane,
Henry Robert J.,
Ceccarelli Salvatore,
Grando Stefania,
Eglinton Jason, Baum Michael
Euphytica. 2013 189(1). p.9
Barley (2010)
Inheritance of the number and thickness of cell layers in barley aleurone tissue (Hordeum vulgare L.): an approach using F2–F3 progeny
Jestin Louis,
Ravel Catherine,
Auroy Sylvie,
Laubin Bastien,
Perretant Marie-Reine,
Pont Caroline, Charmet Gilles
Theoretical and Applied Genetics. 2008 116(7). p.991
Mapping of the eibi1 gene responsible for the drought hypersensitive cuticle in wild barley (Hordeum spontaneum)
Chen Guoxiong,
Komatsuda Takao,
Pourkheirandish Mohammad,
Sameri Mohammad,
Sato Kazuhiro,
Krugman Tamar,
Fahima Tzion,
Korol Abraham B., Nevo Eviatar
Breeding Science. 2009 59(1). p.21
Development of wild barley-derived DArT markers and their integration into a barley consensus map
Alsop B. P.,
Farre A.,
Wenzl P.,
Wang J. M.,
Zhou M. X.,
Romagosa I.,
Kilian A., Steffenson B. J.
Molecular Breeding. 2011 27(1). p.77
Dissection of the nuclear genome of barley by chromosome flow sorting
Suchánková Pavla,
Kubaláková Marie,
Kovářová Pavlína,
Bartoš Jan,
Číhalíková Jarmila,
Molnár-Láng Márta,
Endo Takashi R., Doležel Jaroslav
Theoretical and Applied Genetics. 2006 113(4). p.651
Genetic Mapping of Quantitative Trait Loci for Yield-Affecting Traits in a Barley Doubled Haploid Population Derived from Clipper × Sahara 3771
Vafadar Shamasbi Fatemeh,
Jamali Seyed Hossein,
Sadeghzadeh Behzad, Abdollahi Mandoulakani Babak
Frontiers in Plant Science. 2017 8
Construction of a high-density composite map and comparative mapping of segregation distortion regions in barley
Li Haobing,
Kilian Andrzej,
Zhou Meixue,
Wenzl Peter,
Huttner Eric,
Mendham Neville,
McIntyre Lynne, Vaillancourt René E.
Molecular Genetics and Genomics. 2010 284(5). p.319
Comparative mapping of the Oregon Wolfe Barley using doubled haploid lines derived from female and male gametes
Cistué L.,
Cuesta-Marcos A.,
Chao S.,
Echávarri B.,
Chutimanitsakun Y.,
Corey A.,
Filichkina T.,
Garcia-Mariño N.,
Romagosa I., Hayes P. M.
Theoretical and Applied Genetics. 2011 122(7). p.1399
Brewing Technology (2017)
Association mapping for drought tolerance in barley at the reproductive stage
Abou-Elwafa Salah Fatouh
Comptes Rendus. Biologies. 2016 339(2). p.51
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Varshney R. K.,
Marcel T. C.,
Ramsay L.,
Russell J.,
Röder M. S.,
Stein N.,
Waugh R.,
Langridge P.,
Niks R. E., Graner A.
Theoretical and Applied Genetics. 2007 114(6). p.1091
Effect of Advanced Cycle Breeding on Genetic Diversity in Barley Breeding Germplasm
Condón Federico,
Gustus Charles,
Rasmusson Donald C., Smith Kevin P.
Crop Science. 2008 48(3). p.1027
