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| Registros recuperados : 10 | |
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| 4. | | YAMANAKA, N.; OLIVEIRA, M. C. N. de; YANG, Z.; ABDELNOOR, R. V.; NEUMAIER, N.; NEPOMUCENO, A. L. Correlação entre 21 características observadas em 225 genótipos de soja do noroeste da China. In: CONGRESSO BRASILEIRO DE SOJA, 4., 2006, Londrina. Resumos... Londrina: Embrapa Soja, 2006. p.103-104. Organizado por Odilon Ferreira Saraiva, Simone Ery Grosskopf.| Biblioteca(s): Embrapa Soja. |
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| 5. | | YAMANAKA, N.; SATO, H.; YANG, Z.; XU, D. H.; CATELLI, L. L.; BINNECK, E.; ARIAS, C. A. A.; ABDELNOOR, R. V.; NEPOMUCENO, A. L. Genetic relationships between chinese, japanese, and brazilian soybean gene pools revealed by simple sequence repeat (SSR) markers. Genetics and Molecular Biology, Ribeirão Preto, v. 30, n. 1, p. 85-88, 2007.| Biblioteca(s): Embrapa Soja. |
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| 6. | | YAMANAKA, N.; SATO, H.; YANG, Z.; XU, D. H.; CATELLI, L. L.; ARIAS, C. A. A.; ABDELNOOR, R. V.; NEPOMUCENO, A. L. Genetic relationship of three soybean germplasms revealed by SSR markers. In: CONGRESSO BRASILEIRO DE GENÉTICA, 51., 2005, Águas de Lindóia. Resumos... Águas de Lindóia: SBG, 2005. 1 CD-ROM. Seção: Genética e Melhoramento - Resumos: Pdf.595.| Biblioteca(s): Embrapa Soja. |
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| 7. | | YAMANAKA, N.; SILVA, D. C. G. da; GILLI, J. R.; FUENTES, F. H.; YANG, Z.; POLIZEL, A.; SATO, H.; WATANABE, S.; BAN, T.; HOMMA, Y.; HARADA, K.; BROGIN, R. L.; NEPOMUCENO, A. L.; ABDELNOOR, R. V. Application of DNA markers for identifying genes for resistance to soybean diseases in South America and for evaluating genetic relationships among soybean gene pools. In: SUENAGA, K.; KUDO, H.; OSHIO, S. (Ed.). Comprehensive studies on the development of sustainable soybean production technology in South America. Tsukuba: JIRCAS, 2007. p. 47-53. (JIRCAS Working Report, 51).| Biblioteca(s): Embrapa Soja. |
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| 8. | | RANDOW, C. von; ZERI, M.; RESTREPO-COUPE, N.; MUZA, M. N.; GONÇALVES, L. G. G. de; COSTA, M. H.; ARAUJO, A. C.; MANZI, A. O.; ROCHA, H. R. da; SALESKA, S. R.; ARAIN, M. A.; BAKER, I. T.; CESTARO, B. P.; CHRISTOFFERSEN, B.; CIAIS, P.; FISHER, J. B.; GALBRAITH, D.; GUAN, X.; HURK, B. van den; ICHII, K.; IMBUZEIRO, H.; JAIN, A.; LEVINE, N.; MIGUEZ-MACHO, G.; POULTER, B.; ROBERTI, D. R.; SAHOO, A.; SCHAEFER, K.; SHI, M.; TIAN, H.; VERBEECK, H.; YANG, Z.-L. Inter-annual variability of carbon and water fluxes in Amazonian forest, Cerrado and pasture sites, as simulated by terrestrial biosphere models. Agricultural and Forest Meteorology, v. 182-183, p. 144-155, Dec. 2013.| Biblioteca(s): Embrapa Amazônia Oriental. |
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| 9. | | CHRISTOFFERSEN, B. O.; RESTREPO-COUPE, N.; ARAIN, M. A.; BAKER, I. T.; CESTARO, B. P.; CIAIS, P.; FISHER, J. B.; GALBRAITH, D.; GUAN, X.; GULDEN, L.; HURK, B. van den; ICHII, K.; IMBUZEIRO, H.; JAIN, A.; LEVINE, N.; MIGUEZ-MACHO, G.; POULTER, B.; ROBERTI, D. R.; SAKAGUCHI, K.; SAHOO, A.; SCHAEFER, K.; SHI, M.; VERBEECK, H.; YANG, Z.-L.; ARAUJO, A. C.; KRUIJT, B.; MANZI, A. O.; ROCHA, H. R. da; RANDOW, C. von; MUZA, M. N.; BORAK, J.; COSTA, M. H.; GONÇALVES, L. G. G. de; ZENG, X.; SALESKA, S. R. Mechanisms of water supply and vegetation demand govern the seasonality and magnitude of evapotranspiration in Amazonia and Cerrado. Agricultural and Forest Meteorology, v. 191, p. 33-50, June 2014.| Biblioteca(s): Embrapa Amazônia Oriental. |
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| 10. | | KUHN, J.; ADKINS, S.; AGWANDA, B. R.; KUBRUSLI, R. A.; ALKHOVSKY, S. V.; AMARASINGHE, G. K.; TATJANA, A.-Z.; AYLLÓN, M. A.; BAHL, J.; BALKEMA BUSCHMANN, A.; BALLINGER, M. J.; BASLER, C. F.; BAVARI, S.; BEER, M.; BEJERMAN, N.; BENNETT, A. J.; DBENTE, D. A.; BERGERON, É.; BIRD, B. H.; BLAIR, C. D.; BLASDELL, K. R.; BLYSTAD, D. R.; BOJKO, J.; BORTH, W. B.; BRADFUTE, S.; BREYTA, R.; BRIESE, T.; BROWN, P. A.; BROWN, J. K.; BUCHHOLZ, U. J.; BUCHMEIER, M. J.; ABUKREYEV, A.; BURT, F.; BÜTTNER, C.; CALISHER, C. H.; CAO, M.; CASAS, I.; CHANDRAN, K.; CHARREL, R. N.; CHENG, Q.; CHIAKI, Y.; CHIAPELLO, M.; CHOI, I. R.; CIUFO, M.; CLEGG, J. C. S.; CROZIER, I.; BÓ, E. D.; DE LA TORRE, J. C.; LAMBALLERIE, X. de; SWART, R. L. de; DEBAT, H.; DHEILLY, N. M.; DI CICCO, E.; DI PAOLA, N.; DI SERIO, F.; DIETZGEN, R. G.; DIGIARO, M.; DOLNIK, O.; DREBOT, M. A.; DREXLER, J. F.; DUNDON, W. G.; DUPREX, W. P.; DÜRRWALD, R.; DYE, J. M.; EASTON, A. J.; EBIHARA, H.; ELBEAINO, T.; ERGÜNAY, K.; FERGUSON, H. W.; FOOKS, A. R.; FORGIA, M.; FORMENTY, P. B. H.; FRÁNOVÁ, J.; ASTUA, J. de F.; FU, J.; FÜRL, S.; ZACHERT, S. G.; GĀO, G. F.; GARCÍA, M. L.; SASTRE, A. G.; GARRISON, A. R.; GASKIN, T.; GONZALE, J. P. J.; GRIFTHS, A.; GOLDBERG, T. L.; GROSCHUP, M. H.; GÜNTHER, S.; HALL, R. A.; HAMMOND, J.; HAN, O.; HEPOJOKI, J.; HEWSON, R.; HONG, J.; HONG, N.; HORIE, M.; HU, J. S.; HU, T.; HUGHES, H. R.; HÜTTNER, F.; HYNDMAN, T. H.; ILYAS, M.; JALKANEN, R.; JIĀNG, D.; JONSON, G. J.; JUNGLEN, S.; KADONO, F.; KAUKINEN, K. H.; KAWATE, M.; KLEMPA, B.; KLINGSTRÖM, J.; KOBINGER, G.; KOLONIUK, I.; KONDŌ, H.; KOONIN, V.; KRUPOVIC, M.; KUBOTA, K.; KURATH, G.; LAENEN, L.; LAMBERT, A. J.; LANGEVIN, S. L.; LEE, B.; LEFKOWITZ, E. J.; LI, L.; LEROY, E. M.; LI, S.; LÍ, J.; LIU, H.; LUKASHEVICH, I. S.; MAES, P.; SOUZA, W. M. de; MARKLEWITZ, M.; MARSHALL, S. H.; MARZANO, S. L.; MASSART, S.; MCCAULEY, J. W.; MELZER, M.; MILLER, K. M.; MING, T. J.; MIRAZIMI, A.; MORDECAI, G. J.; MÜHLBACH, H. P.; MÜHLBERGER, E.; NAIDU, R.; NATSUAKI, T.; NAVARRO, J. A.; NETESOV, S. Y V.; NEUMANN, G.; NOWOTNY, N.; NUNES, M. R. T.; VELARDE, A. O.; PALACIOS, G.; PALLÁS, V.; PÁLYI, B.; PAPA, A.; PARASKEVOPOULOU, S.; PARK, A. C.; PARRISH, C. R.; PATTERSON, D. A.; CORRÊA, A. P.; PAWESKA, J. T.; PAYNE, S.; PERACCHIO, C.; PÉREZ, D. R.; POSTLER, T. S.; QI, L.; RADOSHITZKY, S. R.; RESENDE, R. O.; REYES, C. A.; RIMA, B. K.; LUNA, G. R.; ROMANOWSKI, V.; ROTA, P.; RUBBENSTROTH, D.; RUBINO, L.; RUNSTADLER, J. A.; SABANADZOVIC, S.; SALL, A. A.; SALVATO, M. S.; SANG, R.; SASAYA, T.; SCHULZE, A. D.; SCHWEMMLE, M.; SHI, M.; SHÍ, X.; SHIMOMOTO, Y.; SHIRAKO, Y.; SIDDELL, S. G.; SIMMONDS, P.; SIRONI, M.; SMAGGHE, G.; SMITHER, S.; SONG, J. W.; SPANN, K.; SPENGLER, J. R.; STENGLEIN, M. D.; STONE, D. M.; SUGANO, J.; TABATA, A.; TAKADA, A.; TAKEUCHI, S.; TCHOUASSI, D. P.; TEFER, A.; TESH, R. B.; THORNBURG, N. J.; TOMITAKA, Y.; TOMONAGA, K.; TORDO, N.; TORTO, B.; TOWNER, J. S.; TSUDA, S.; TU, C.; TURINA, M.; TZANETAKIS, I. E.; UCHIDA, J.; USUGI, T.; VAIRA, A. M.; VALLINO, M.; VAN DEN HOOGEN, B.; VARSANI, A.; VASILAKIS, N.; VERBEEK, M.; BARGEN, S. V.; WADA, J.; WAHL, V.; WALKER, P. J.; WANG, L. F.; WANG, G.; WANG, Y.; WANG, Y.; WAQAS, M.; WÈI, T.; WEN, S.; WHITFELD, A. E.; WILLIAMS, J. V.; WOLF, Y. I.; WU, J.; XU, L.; YANAGISAWA, H.; YANG, C.; YANG, Z.; ZERBINI, F. M.; ZHAI, L.; ZHANG, Y. Z.; ZHANG, O.; ZHANG, J.; ZHANG, Z.; ZHOU, X. 2021 Taxonomic update of phylum Negarnaviricota (Riboviria: Orthornavirae), including the large orders Bunyavirales and Mononegavirale. Archives of Virology, August, 2021.| Biblioteca(s): Embrapa Mandioca e Fruticultura. |
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Registro Completo
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Biblioteca(s): |
Embrapa Soja. |
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Data corrente: |
20/12/2005 |
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Data da última atualização: |
13/01/2006 |
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Autoria: |
YAMANAKA, N.; SATO, H.; YANG, Z.; XU, D. H.; CATELLI, L. L.; ARIAS, C. A. A.; ABDELNOOR, R. V.; NEPOMUCENO, A. L. |
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Título: |
Genetic relationship of three soybean germplasms revealed by SSR markers. |
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Ano de publicação: |
2005 |
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Fonte/Imprenta: |
In: CONGRESSO BRASILEIRO DE GENÉTICA, 51., 2005, Águas de Lindóia. Resumos... Águas de Lindóia: SBG, 2005. |
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Descrição Física: |
1 CD-ROM. |
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Idioma: |
Inglês |
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Notas: |
Seção: Genética e Melhoramento - Resumos: Pdf.595. |
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Conteúdo: |
An understanding of the relationship of geographically different soybean germplasm, based on selectively neutral DNA markers, could be useful in breeding programs on selection of divergent parentals. Although Japan, China, and Brazil are very important countries for consumption, production and as sources of genetic variation of soybean, the genetic relationship of soybean varieties, in these three regions, is not clear yet.The objective of this research was to assess the relationship of these three soybean germplasms, with a total of 272 varieties that are potential new sources of genetic
variation for soybean breeding programs.Two kinds of analyses, Hayashi ?s Quantification Theory III and UPGMA clustering, using 12 SSR markers, were performed to evaluate relationship among the three germplasms. In both analyses, Northeastern Chinese varieties and Japanese varieties were closely related but were classified separately.On the other hands,Brazilian varieties were distantly related and classi . ed into a completely different group to the other two germplasms.For clustering analysis, the genetic distances between varieties belonging to Japan, Northeast China,and Brazil ranged from 0.00-4.00,0.00-5.88, and 0.00-5.29, respectively. We observed that Chinese varieties
were the most divergent among the three regions,being that more than 95%of them ranged up to 4.14. In addition, Brazilian varieties ranged from 0.00-3.86, except for two varieties.The differences among regions were much larger than within each region (ex.the distance between Brazilian and other two was 8.69). These findings indicate that exchanges of these three germplasms must be useful for breeders since it would increase the genetic variability on the soybean breeding programs. MenosAn understanding of the relationship of geographically different soybean germplasm, based on selectively neutral DNA markers, could be useful in breeding programs on selection of divergent parentals. Although Japan, China, and Brazil are very important countries for consumption, production and as sources of genetic variation of soybean, the genetic relationship of soybean varieties, in these three regions, is not clear yet.The objective of this research was to assess the relationship of these three soybean germplasms, with a total of 272 varieties that are potential new sources of genetic
variation for soybean breeding programs.Two kinds of analyses, Hayashi ?s Quantification Theory III and UPGMA clustering, using 12 SSR markers, were performed to evaluate relationship among the three germplasms. In both analyses, Northeastern Chinese varieties and Japanese varieties were closely related but were classified separately.On the other hands,Brazilian varieties were distantly related and classi . ed into a completely different group to the other two germplasms.For clustering analysis, the genetic distances between varieties belonging to Japan, Northeast China,and Brazil ranged from 0.00-4.00,0.00-5.88, and 0.00-5.29, respectively. We observed that Chinese varieties
were the most divergent among the three regions,being that more than 95%of them ranged up to 4.14. In addition, Brazilian varieties ranged from 0.00-3.86, except for two varieties.The differences among regions were muc... Mostrar Tudo |
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Categoria do assunto: |
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Marc: |
LEADER 02475naa a2200229 a 4500
001 1468675
005 2006-01-13
008 2005 bl uuuu u00u1 u #d
100 1 $aYAMANAKA, N.
245 $aGenetic relationship of three soybean germplasms revealed by SSR markers.
260 $c2005
300 $c1 CD-ROM.
500 $aSeção: Genética e Melhoramento - Resumos: Pdf.595.
520 $aAn understanding of the relationship of geographically different soybean germplasm, based on selectively neutral DNA markers, could be useful in breeding programs on selection of divergent parentals. Although Japan, China, and Brazil are very important countries for consumption, production and as sources of genetic variation of soybean, the genetic relationship of soybean varieties, in these three regions, is not clear yet.The objective of this research was to assess the relationship of these three soybean germplasms, with a total of 272 varieties that are potential new sources of genetic variation for soybean breeding programs.Two kinds of analyses, Hayashi ?s Quantification Theory III and UPGMA clustering, using 12 SSR markers, were performed to evaluate relationship among the three germplasms. In both analyses, Northeastern Chinese varieties and Japanese varieties were closely related but were classified separately.On the other hands,Brazilian varieties were distantly related and classi . ed into a completely different group to the other two germplasms.For clustering analysis, the genetic distances between varieties belonging to Japan, Northeast China,and Brazil ranged from 0.00-4.00,0.00-5.88, and 0.00-5.29, respectively. We observed that Chinese varieties were the most divergent among the three regions,being that more than 95%of them ranged up to 4.14. In addition, Brazilian varieties ranged from 0.00-3.86, except for two varieties.The differences among regions were much larger than within each region (ex.the distance between Brazilian and other two was 8.69). These findings indicate that exchanges of these three germplasms must be useful for breeders since it would increase the genetic variability on the soybean breeding programs.
700 1 $aSATO, H.
700 1 $aYANG, Z.
700 1 $aXU, D. H.
700 1 $aCATELLI, L. L.
700 1 $aARIAS, C. A. A.
700 1 $aABDELNOOR, R. V.
700 1 $aNEPOMUCENO, A. L.
773 $tIn: CONGRESSO BRASILEIRO DE GENÉTICA, 51., 2005, Águas de Lindóia. Resumos... Águas de Lindóia: SBG, 2005.
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