Search Results - "Nested association mapping"

Genetic Architecture of a Rice Nested Association Mapping Population by Fragoso, Christopher A., Moreno, Maria, Wang, Zuoheng, Heffelfinger, Christopher, Arbeláez, Lady J., Aguirre, John A., Franco, Natalia, Romero, Luz Elena, Labadie, Karine, Zhao, Hongyu, Dellaporta, Stephen L., Lorieux, Mathias

“…Describing the genetic diversity in the gene pool of crops will provide breeders with novel resources for varietal improvement. Nested Association Mapping (NAM) populations are uniquely suited for characterizing parental diversity through the shuffling and fixation of parental haplotypes. …”
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Genomic regions involved in the control of 1,000-kernel weight in wild relative-derived populations of durum wheat by Jabbour, Yaman, Shafik Hakim, Mohammad, Al-Yossef, Abdallah, M. Saleh, Maysoun, Al-Dein Shaaban, Ahmad, Kabbaj, Hafssa, Zaim, Meryem, Kleinermann, Charles, Bassi, Filippo

Subjects: “…nested association mapping nam…”
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Nested Association Mapping (NAM) Populations: Present status and future prospects in the genomics era by Gireesh, Channappa, Sundaram, Raman. M., Anantha, Siddaiah M., Pandey, Manish K., Madhav, Maganti S., Rathod, Santosha, Yathish, Kondajji R., Senguttuvel, Ponnuvel, Kalyani, Barbadikar M., Ranjith, Ellur, Venkata Subbarao, Lella, Kumar Mondal, Tapan, Swamy, Mallikarjuna, Rakshit, Sujay

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A large nested association mapping population for breeding and quantitative trait locus mapping in Ethiopian durum wheat by Kidane, Yosef Gebrehawaryat, Gesesse, C.A., Hailemariam, Bogale Nigir, Desta, E.A., Mengistu, D.K., Fadda, Carlo, Pe, M.E., Dell'Acqua, M.

“…To harness their unique allelic diversity, we produced a large nested association mapping (NAM) population intercrossing fifty Ethiopian FVs with an international elite durum wheat variety (Asassa). …”
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A multi-reference parent nested-association mapping population to dissect the genetics of quantitative traits in durum wheat by Alahmad, Samir, Kang, Yichen, Dinglasan, Eric, Jambuthenne, Dilani, Robinson, Hannah, Tao, Yongfu, Able, Jason, Christopher, Jack, Voss-Fels, Kai Peter, Bassi, Filippo, Hickey, Lee

“…Here, we describe the development of a durum Nested Association Mapping (dNAM) population, which represents a valuable genetic resource for mapping the effects of different alleles on trait performance. …”
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Characterization of adaptation mechanisms in sorghum using a multireference back-cross nested association mapping design and envirotyping by Garin, Vincent, Chiaka Diallo, Mohamed Lamine Tékété, Korotimi Théra, Guitton, Baptiste, Karim Dagno, Abdoulaye G. Diallo, Kouressy, Mamoutou, Leiser, Willmar, Rattunde, Fred, Sissoko, Ibrahima, Touré, Aboubacar, Nébié, Baloua, Moussa Samaké, Kholovà, Jana, Berger, Angélique, Frouin, Julien, Pot, David, Vaksmann, Michel, Weltzien-Rattunde, Eva, Niaba Témé, Rami, Jean-François

“…Here we present a sorghum multireference back-cross nested association mapping population composed of 3,901 lines produced by crossing 24 diverse parents to 3 elite parents from West and Central Africa-back-cross nested association mapping. …”
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Unveiling yellow rust resistance in the near-Himalayan region: insights from a nested association mapping study by Jung, Katharina, Akiyama, Reiko, Nie, Jilu, Nitta, Miyuki, Hamaya, Naoto-Benjamin, Qureshi, Naeela, Bhavani, Sridhar, Wicker, Thomas, Keller, Beat, Kishii, Masahiro, Nasuda, Shuhei, Shimizu, Kentaro K.

“…To explore this potential, we screened an Asian nested association mapping (NAM) population comprising traditional and modern wheat varieties under artificial epidemics in multiple field trials. …”
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Dissecting genetic loci of yield, yield components, and protein content in bread wheat nested association mapping population by Donaire, Guillermo Manuel, Vanzetti, Leonardo Sebastian, Conde, María Belén, Bainotti, Carlos Tomas, Mir, Leticia Raquel, Borrás, Lucas, Chicaiza, Oswaldo, Helguera, Marcelo

“…We developed a nested association mapping population composing a set of spring wheat genotypes for genetic dissection of grain yield and quality with ‘Blanca Fuerte’ (high yield and low grain protein content) as recurrent parent and cultivars and advanced lines from CIMMYT and California (UC Davis breeding program, medium–high yield and grain protein content). …”
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Using diversity of Ethiopian durum wheat to challenge climate change: a three pronged approach by Kassahum, D., Kidane, Y., Mancini, C., Fadda, Carlo, Pe’, M.E., Bioversity International

“…Development of nested association mapping (NAM) population of a sub-set of 50 accessions for discovery of genes useful to adapt to climate change and 3. …”
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A new winter wheat genetic resource harbors untapped diversity from synthetic hexaploid wheat by Wright, Tally, Horsnell, Richard, Love, Bethany, Burridge, Amanda J., Gardner, Keith A., Jackson, Robert, Leigh, Fiona J., Ligeza, Aleksander, Heuer, Sigrid, Bentley, Alison R., Howell, Philip

“…We developed a large and diverse winter wheat nested association mapping (NAM) population (termed the NIAB_WW_SHW_NAM) consisting of 3241 genotypes derived from 54 nested back-cross 1 (BC1) populations, each formed via back-crossing a different primary SHW into the UK winter wheat cultivar ‘Robigus’. …”
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Joint linkage QTL mapping for yield and agronomic traits in a composite map of three common bean RIL populations by Hoyos Villegas, Valerio, Song, Qijian, Wright, Evan M., Beebe, Stephen E., Kelly, James D.

“…In this study, we constructed three small‐red‐seeded bean recombinant inbred line (RIL) mapping populations (S48M, S94M, and S95M) with a common parent (‘Merlot’) and performed joint interval mapping analysis as a small nested association mapping (NAM) population for agronomic traits and performance under rainfed conditions in Michigan. …”
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