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Potatoes
DaRT marker array for potato
Genomic Resources
An array of DArT markers for potato discovered by screening a library of several thousand fragments from a genomic representation prepared from a pool of DNA samples that encompass the diversity of the species. The use of the microarray platform make s this tool very efficient because all markers on... (read more )
Available through Diversity Arrays Technology Pty Ltd (DArT P/L)
http://www.diversityarrays.com/
Potatoes
Mutagenized potato seeds
Germplasm
2,000 potato seeds mutagenized with EMS at LD20 for development of a saturated mutant population of a wild potato species.
Contact M. Ghislain, International Potato Center, Lima, Peru
m.ghislain@cgiar.org
Potatoes
A potato germplasm reference set
Germplasm
A set of 1027 potato accessions virus free and available for international distribution
Contact International Potato Center (CIP), Lima, Peru
www.cippotato.org
Sweetpotatoes
DaRT marker array for yam
Genomic Resources
An array of DArT markers for yam discovered by screening a library of several thousand fragments from a genomic representation prepared from a pool of DNA samples that encompass the diversity of the species. The use of the microarray platform make s this tool very efficient because all markers on a ... (read more )
Available through Diversity Arrays Technology Pty Ltd (DArT P/L)
http://www.diversityarrays.com/
Lentils
DaRT marker array for pigeon pea
Genomic Resources
An array of DArT markers for pigeon pea discovered by screening a library of several thousand fragments from a genomic representation prepared from a pool of DNA samples that encompass the diversity of the species. The use of the microarray platform make s this tool very efficient because all marker... (read more )
Available through Diversity Arrays Technology Pty Ltd (DArT P/L)
http://www.diversityarrays.com/
Lentils
A validated Pigeon Pea germplasm reference collection
Genomic Resources
The Pigeon Pea Reference Set is composed of a core set of accessions representing the genetic diversity of the entirety of the ICRISAT germplasm bank collection. The reference set represents a critical resource for plant scientists to study new adaptative traits, discover new favorable alleles and a... (read more )
The International Crops Research Institute for the Semi-Arid Tropics(ICRISAT) Germplasm Bank
Pearl Millet
DaRT marker array for pearl millet
Genomic Resources
An array of DArT markers for pearl millet discovered by screening a library of several thousand fragments from a genomic representation prepared from a pool of DNA samples that encompass the diversity of the species. The use of the microarray platform make s this tool very efficient because all mark... (read more )
Available through Diversity Arrays Technology Pty Ltd (DArT P/L)
http://www.diversityarrays.com/
Wheat
A selection wheat/barley introgression lines with drought tolerance
Germplasm
Wheat - barley translocation line, 3HS.3BL, and the addition lines, 3H, 4H Mv9kr1/lgri, showing the best drought resistance index in the field under a rainout shelter. The 3H Mv9kr1/Igri, the 4H A.komugi/Manas, the 6H Mv9kr1/Betzes addition and the 7DL.7DS-5HS, 6BL.6BS-4H translocations were... (read more )
Contact: Marta Molnar-Lang, Agricultural Research Institute of the Hungarian Academy of Sciences, Martonvásár, Hungary
molnarm@mail.mgki.hu
Wheat
A wheat/barley introgression line with salt tolerance
Germplasm
The wheat/barley addition line, 7H Asakazekomugi/Manas , found tolerant to moderate (200 mM NaCl L-1) salinity in laboratory tests.
Contact: Marta Molnar-Lang, Agricultural Research Institute of the Hungarian Academy of Sciences, Martonvásár, Hungary
molnarm@mail.mgki.hu
Wheat
A wheat/barley introgression lines with aluminum tolerance
Germplasm
Both the wheat cv. Asakazekomugi and barley cv. Manas indicated good Al-tolerance in laboratory tests. The wheat/barley addition Asakazekomugi/Manas addition lines (4H, 6H, 7H) indicated good Al-tolerance in in tests, as well.
Contact: Marta Molnar-Lang, Agricultural Research Institute of the Hungarian Academy of Sciences, Martonvásár, Hungary
molnarm@mail.mgki.hu
Barley
SNP markers for drought tolerance QTLs in barley recombinant chromosome substitution lines
Informative Markers
A set of SNP markers designed via an Illumina and GoldenGate assay (Close et al., 2009*) of barley recombinant chromosome substitution lines These SNPs are based on ESTs; HarvEST 35 unigene number can be supplied by access contact person as noted
Contact: Professor Robbie Waugh, SCRI, Scotland, UK
Robbie.Waugh@scri.ac.uk
Barley
Small chromosomal regions of wild barley indicating increased yield under drought
Genomic Resources
Data set describing small chromosomal regions in wild barley conferring increased yields unders drought and identified by flanking SNP markers
Contact: Professor Robbie Waugh, SCRI, Scotland, UK
Robbie.Waugh@scri.ac.uk
Barley
Candidate drought-tolerance genes from homologous regions in rice
Genomic Resources
Chromosomal regions in rice homologous to regions conferring drought tolerance in barley. Regions are identified by SNP flanking markers.
Contact: Professor Robbie Waugh, SCRI, Scotland, UK
Robbie.Waugh@scri.ac.uk
Barley
SNP markers for drought tolerance QTLs in landrace barleys
Informative Markers
A set of SNP markers designed via an Illumina and GoldenGate assay (Close et al., 2009*) of the Syrian and Jordanian Landrace Collection of barley. These SNPs are based on ESTs; HarvEST 35 unigene number can be supplied by access contact person as noted below.
Contact: Professor Robbie Waugh, SCRI, Scotland, UK
Robbie.Waugh@scri.ac.uk
Barley
Candidate genes for drought tolerance in barley landraces
Genomic Resources
Candidate genes for drought tolerance identified from the Syrian and Jordanian Landrace Collection of barley.
Contact: Professor Robbie Waugh, SCRI, Scotland, UK
Robbie.Waugh@scri.ac.uk
Groundnuts
New groundnut synthetics for drought tolerance
Germplasm
Four new synthetic amphidiploids (c.5) incorporating the the nenomes of wild Arachis spp. selected for their drought tolerance:
(A. batizocoi K9484 x A. stenosperma V10309)4x , (A. batizocoi K9484 x A. duranensis SeSn2848), (A. batizocoi K9484 x A. duranensis V14167), 4x
and (A... (read more )
Contact:
José Valls, EMBRAPA, Brazil or David Bertioli, Universidade Catolica de Brasilia, Brazil
valls@cenargen.embrapa.br davidbertioli@unb.br
Groundnuts
Improved gene-rich reference maps for groundnut
Genomic Resources
Improved gene-rich reference maps for the component, AA and BB diploid and the tetraploid AABB genomes of groundnut.
All maps available through published studies. Contact: José Valls, EMBRAPA, Brazil or David Bertioli, Universidade Catolica de Brasilia, Brazil or Marcio C. Moretzsohn, EMBRAPA, Brazil
valls@cenargen.embrapa.br davidbertioli@unb.br marciocm@cenargen.embrapa.br
read more)
Groundnuts
A genetic map for disease resistance genes in groundnut
Genomic Resources
A genetic map with 34 sequence-confirmed candidate disease resistance genes and five Late Leaf Spot QTLs mapped.
Map available through a published study.
Contact: José Valls, EMBRAPA, Brazil or
David Bertioli, Universidade Catolica de Brasilia, Brazil or Soraya Leal-Bertioli, EMBRAPA, Brazil
soraya@cenargen.embrapa.br valls@cenargen.embrapa.br davidbertioli@unb.br
read more)
Groundnuts
An analysis of genome synteny of Arachis with other legumes
Genomic Resources
A genome synteny of Arachis analysed with L. japonicus, M. tuncatula and common bean derived from an analysis based on more than 100 genic markers.
Analysis results available through a published study.
Contact: José Valls, EMBRAPA, Brazil or
David Bertioli, Universidade Catolica de Brasilia, Brazil or Jens Stougaard, Univesity of Aahus, Denmark
valls@cenargen.embrapa.br
davidbertioli@unb.br
stougaar... (read more )
Groundnuts
Genotyping system for incorporation of wild Arachis genes in groundnut breeding programs
Protocol
A genotyping system (c. 10 markers per chromosome) based on genic markers suitable for use in breeding programs to introgress wild Arachis spp. genes into cultivated groundnut.
Contact: José Valls, EMBRAPA, Brazil or
David Bertioli, Universidade Catolica de Brasilia, Brazil
valls@cenargen.embrapa.br
davidbertioli@unb.br marciocm@cenargen.embrapa.br