| 0 | GSOR 312001 | 'Azucena' | Oryza sativa L. | Philippines | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837884 | GSOR 312001 |
| 1 | GSOR 312002 | 'Sadu Cho' | Oryza sativa L. | Korea, South | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837885 | GSOR 312002 |
| 2 | GSOR 312003 | 'N 22' | Oryza sativa L. | India | GSOR |  | Not Available | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837886 | GSOR 312003 |
| 3 | GSOR 312004 | 'Moroberekan' | Oryza sativa L. | Guinea | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837887 | GSOR 312004 |
| 4 | GSOR 312005 | 'Nipponbare' | Oryza sativa L. | Japan | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837888 | GSOR 312005 |
| 5 | GSOR 312006 | 'Dom-Sufid' | Oryza sativa L. | Iran | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837889 | GSOR 312006 |
| 6 | GSOR 312007 | 'Tainung 67 (TNG67)' | Oryza sativa L. | Taiwan | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837890 | GSOR 312007 |
| 7 | GSOR 312008 | 'Zhenshan 97B (ZS97B)' | Oryza sativa L. | China | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837891 | GSOR 312008 |
| 8 | GSOR 312009 | 'Minghui 63 (MH 63)' | Oryza sativa L. | China | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837892 | GSOR 312009 |
| 9 | GSOR 312010 | 'IR64-21' | Oryza sativa L. | Philippines | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837893 | GSOR 312010 |
| 10 | GSOR 312011 | 'M-202' | Oryza sativa L. | United States | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837894 | GSOR 312011 |
| 11 | GSOR 312012 | 'Swarna' | Oryza sativa L. | India | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837895 | GSOR 312012 |
| 12 | GSOR 312013 | 'Cypress' | Oryza sativa L. | United States | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837896 | GSOR 312013 |
| 13 | GSOR 312014 | 'Shan-Huang-Zhan-2 (SHZ2)' | Oryza sativa L. | China | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837897 | GSOR 312014 |
| 14 | GSOR 312015 | 'FR13A' | Oryza sativa L. | India | GSOR |  | Not Available | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837898 | GSOR 312015 |
| 15 | GSOR 312016 | 'Aswina' | Oryza sativa L. | Bangladesh | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837899 | GSOR 312016 |
| 16 | GSOR 312017 | 'Dular' | Oryza sativa L. | India | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837900 | GSOR 312017 |
| 17 | GSOR 312018 | 'Li-Jiang-Xin-Tuan-Hei-Gu (LTH)' | Oryza sativa L. | China | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837901 | GSOR 312018 |
| 18 | GSOR 312019 | 'Rayada' | Oryza sativa L. | Bangladesh | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837902 | GSOR 312019 |
| 19 | GSOR 312020 | 'Pokkali (salt tolerant selection 2003)' | Oryza sativa L. | India | GSOR |  | | 2010 | DONATED | 2011 | | | | | Genetic material | A consortium of NRI funded researchers at Colorado State University, The Institute for Genomic Research, the International Rice Research Institute, Perlegen Sciences, and the Max Planck Institute collaborated on the OryzaSNP Project that involved genome-wide single nucleotide polymorphism (SNP) discovery across a unique fraction of the rice genome. This partnership has identified SNPs from across the whole genome of 20 rice cultivars. SNPs are a marker of genetic variation between individuals of species that allow scientists to identify regions of genetic variation that may be linked. Examples of traits that might be linked include plant development, yield, disease resistance, drought tolerance, and nutritional value. Rice is the world's top food crop and principal source of nourishment for nearly half the world's population. By identifying and comparing differences in DNA sequences, the new knowledge will accelerate development of hardier, more productive types of rice, particularly for people in the poorest but fastest growing nations. The consortium released all the SNP data at a public workshop held during the 5th International Symposium of Rice Functional Genomics, October 15-17, 2007, in Tsukuba, Japan. The research team facilitated discussions with participants on how to use the many SNPs generated to forward rice genomics, genetics and breeding. | 1837903 | GSOR 312020 |