FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2006388650> ?p ?o ?g. }

• W2006388650 endingPage "216" @default.
• W2006388650 startingPage "204" @default.
• W2006388650 abstract "Genetic diversity and relatedness of 23 yardlong bean (Vigna unguiculata spp. sesquipedalis) accessions and 7 accessions of a hybrid between cowpea (V. unguiculata spp. unguiculata) and yardlong bean (dwarf yardlong bean) in Thailand were estimated using morphological characters, simple sequence repeat (SSR) and inter-simple sequence repeat (ISSR) markers. In addition, two mungbean (Vigna radiata (L.) Wilczek) and two blackgram (Vigna mungo (L.) Hepper) accessions were also used as outgroup species for molecular analysis. Five morphological characters were diverse among most accessions. However, five groups of 2–3 accessions could not be distinguished from one another based on these morphological characters alone. Unweighted pair-group arithmetic average (UPGMA) analysis of these characters separated these 30 accessions into 2 major groups; the yardlong bean group and the dwarf yardlong bean group. Eleven of the sixteen SSR primers yielded clear SSRs, ten of which were polymorphic (90.91% polymorphism), detecting a total of 54 alleles with an average of 4.91 alleles per locus. These 10 polymorphic SSR markers successfully distinguished 28 yardlong bean and dwarf yardlong bean accessions. The polymorphic information content (PIC) among genotypes varied from 0.251 to 0.752 with an average of 0.597. Among the 16 ISSR primers used, a total of 312 ISSR fragments were amplified for these three Vigna species, revealing the polymorphism percentage of 91.03%. The average ISSR PIC value (0.197) with the range of 0.137–0.276 was lower than that of SSR. Nevertheless, the average marker index of this multilocus marker was 3.495, which was higher than that of SSR (0.669), owing to the differences in the effective multiplex ratio. In addition, Mantel test cophenetic correlation coefficient was higher for ISSR (0.566) than that of SSR (0.198). These results indicated higher efficiency of ISSR for estimating the levels of genetic diversity and relationships among yardlong beans and dwarf yardlong beans in this study. Pair-wise coefficients of SSR- and ISSR-based genetic similarity among all yardlong bean and dwarf yardlong bean accessions averaged 0.87 and 0.91, respectively, suggesting a narrow genetic base that emphasizes the need to broaden genetic diversity to ensure continued breeding success. Clustering of genotypes within groups was not similar when SSR and ISSR derived dendrograms from UPGMA analysis were compared. It appeared that ISSR was the most effective marker system in determining the genetic variability and relationships among yardlong bean and dwarf yardlong bean accessions and differentiating three Vigna species. In addition, ISSR was also most useful for variety identification since all 30 yardlong beans and dwarf yardlong bean accessions can be effectively distinguished by only four ISSR primers with the highest PIC values." @default.
• W2006388650 created "2016-06-24" @default.
• W2006388650 creator A5025895139 @default.
• W2006388650 creator A5036239224 @default.
• W2006388650 creator A5040056840 @default.
• W2006388650 creator A5053416450 @default.
• W2006388650 creator A5067767196 @default.
• W2006388650 date "2010-03-01" @default.
• W2006388650 modified "2023-10-05" @default.
• W2006388650 title "Variety identification and comparative analysis of genetic diversity in yardlong bean (Vigna unguiculata spp. sesquipedalis) using morphological characters, SSR and ISSR analysis" @default.
• W2006388650 cites W1209230456 @default.
• W2006388650 cites W1496014134 @default.
• W2006388650 cites W1522274554 @default.
• W2006388650 cites W1530251062 @default.
• W2006388650 cites W1554572947 @default.
• W2006388650 cites W1641586197 @default.
• W2006388650 cites W179464430 @default.
• W2006388650 cites W1921511347 @default.
• W2006388650 cites W1966669654 @default.
• W2006388650 cites W1976710180 @default.
• W2006388650 cites W1978904687 @default.
• W2006388650 cites W1980151980 @default.
• W2006388650 cites W1980195730 @default.
• W2006388650 cites W1982062796 @default.
• W2006388650 cites W1987022423 @default.
• W2006388650 cites W1993065809 @default.
• W2006388650 cites W2000037035 @default.
• W2006388650 cites W2001492703 @default.
• W2006388650 cites W2006725007 @default.
• W2006388650 cites W2016131491 @default.
• W2006388650 cites W2022121142 @default.
• W2006388650 cites W2037210253 @default.
• W2006388650 cites W2037507221 @default.
• W2006388650 cites W2047159705 @default.
• W2006388650 cites W2047368922 @default.
• W2006388650 cites W2055113053 @default.
• W2006388650 cites W2055810469 @default.
• W2006388650 cites W2062136338 @default.
• W2006388650 cites W2068824173 @default.
• W2006388650 cites W2070883959 @default.
• W2006388650 cites W2071639148 @default.
• W2006388650 cites W2074433369 @default.
• W2006388650 cites W2076517353 @default.
• W2006388650 cites W2086207837 @default.
• W2006388650 cites W2088805928 @default.
• W2006388650 cites W2088860380 @default.
• W2006388650 cites W2089083887 @default.
• W2006388650 cites W2094199225 @default.
• W2006388650 cites W2095656933 @default.
• W2006388650 cites W2098565257 @default.
• W2006388650 cites W2125433837 @default.
• W2006388650 cites W2137852528 @default.
• W2006388650 cites W2141096874 @default.
• W2006388650 cites W2156843275 @default.
• W2006388650 cites W2171114940 @default.
• W2006388650 cites W242011041 @default.
• W2006388650 cites W248489784 @default.
• W2006388650 cites W277638412 @default.
• W2006388650 cites W298286368 @default.
• W2006388650 cites W4233607310 @default.
• W2006388650 cites W4241287359 @default.
• W2006388650 cites W49121449 @default.
• W2006388650 cites W5802275 @default.
• W2006388650 doi "https://doi.org/10.1016/j.scienta.2009.12.033" @default.
• W2006388650 hasPublicationYear "2010" @default.
• W2006388650 type Work @default.
• W2006388650 sameAs 2006388650 @default.
• W2006388650 citedByCount "51" @default.
• W2006388650 countsByYear W20063886502012 @default.
• W2006388650 countsByYear W20063886502013 @default.
• W2006388650 countsByYear W20063886502014 @default.
• W2006388650 countsByYear W20063886502015 @default.
• W2006388650 countsByYear W20063886502016 @default.
• W2006388650 countsByYear W20063886502017 @default.
• W2006388650 countsByYear W20063886502018 @default.
• W2006388650 countsByYear W20063886502019 @default.
• W2006388650 countsByYear W20063886502020 @default.
• W2006388650 countsByYear W20063886502021 @default.
• W2006388650 countsByYear W20063886502022 @default.
• W2006388650 countsByYear W20063886502023 @default.
• W2006388650 crossrefType "journal-article" @default.
• W2006388650 hasAuthorship W2006388650A5025895139 @default.
• W2006388650 hasAuthorship W2006388650A5036239224 @default.
• W2006388650 hasAuthorship W2006388650A5040056840 @default.
• W2006388650 hasAuthorship W2006388650A5053416450 @default.
• W2006388650 hasAuthorship W2006388650A5067767196 @default.
• W2006388650 hasConcept C104317684 @default.
• W2006388650 hasConcept C135763542 @default.
• W2006388650 hasConcept C144024400 @default.
• W2006388650 hasConcept C144027150 @default.
• W2006388650 hasConcept C149923435 @default.
• W2006388650 hasConcept C180754005 @default.
• W2006388650 hasConcept C194898557 @default.
• W2006388650 hasConcept C2778120384 @default.
• W2006388650 hasConcept C2778357721 @default.
• W2006388650 hasConcept C2779862049 @default.
• W2006388650 hasConcept C2908647359 @default.
• W2006388650 hasConcept C54355233 @default.

• next