Differences of EST-SSR and genomic-SSR markers in assessing genetic diversity in poplar

We analyzed the genetic differences of 16 poplar clones between genomic-SSR and EST-SSR markers. The statistical results show that the average number of alleles detected by genomic-SSR was 4.1, Shannon's index 1.0646, observed heterozygos- ity 0.4427 and expected heterozygosity 0.5523, while for the...

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Published inForestry Studies in China Vol. 14; no. 1; pp. 1 - 7
Main Authors Song, Yue-peng, Jiang, Xi-bing, Zhang, Man, Wang, Ze-liang, Bo, Wen-hao, An, Xin-min, Zhang, De-qiang, Zhang, Zhi-yi
Format Journal Article
LanguageEnglish
Published Heidelberg Beijing Forestry University 01.03.2012
Springer Nature B.V
National Engineering Laboratory for Tree Breeding, Key Laboratory of Genetics and Breeding in Forest Trees and Ornamental Plants of Ministry of Education, Tree and Ornamental Plant Breeding and Biotechnology Laboratory of State Forestry Administration, Beijing Forestry University, Beijing 100083, P.R.China%College of Horticulture, Northwest Agriculture and Forestry University, Yangling 712100, P.R.China
Subjects
Biomedical and Life Sciences
China
Cluster analysis
Forestry
Forestry Management
Genetics
Life Sciences
Markers
Plant Ecology
Plant Genetics and Genomics
Polymorphism
Poplar
Research Article
SSR标记
Tree Biology
Wood Science & Technology
基因型鉴定
基因组
多态性检测
平均等位基因数
杨树无性系
评估
遗传多样性
genomic-SSR
poplar
genetic differences
EST-SSR
Online AccessGet full text
ISSN1008-1321
2095-4034
1993-0372
2197-5620
DOI10.1007/s11632-012-0106-5

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Summary:We analyzed the genetic differences of 16 poplar clones between genomic-SSR and EST-SSR markers. The statistical results show that the average number of alleles detected by genomic-SSR was 4.1, Shannon's index 1.0646, observed heterozygos- ity 0.4427 and expected heterozygosity 0.5523, while for the EST-SSR, the average number of alleles was 2.8, Shannon's index 0.6985, observed heterozygosity 0.2330 and expected heterozygosity 0.4684. Cluster analysis indicated that the EST-SSR capacity of genotypic identification was more precise than that of genomic-SSR. These resuks reveal that EST-SSR and genomic-SSR have statistically significant genetic differences in polymorphism detection and genotypic identification. These differences could provide a theoretical basis for the rational use of SSR markers in species diversity and other related research.
Bibliography:poplar, genomic-SSR, EST-SSR, genetic differences
11-3919/S
We analyzed the genetic differences of 16 poplar clones between genomic-SSR and EST-SSR markers. The statistical results show that the average number of alleles detected by genomic-SSR was 4.1, Shannon's index 1.0646, observed heterozygos- ity 0.4427 and expected heterozygosity 0.5523, while for the EST-SSR, the average number of alleles was 2.8, Shannon's index 0.6985, observed heterozygosity 0.2330 and expected heterozygosity 0.4684. Cluster analysis indicated that the EST-SSR capacity of genotypic identification was more precise than that of genomic-SSR. These resuks reveal that EST-SSR and genomic-SSR have statistically significant genetic differences in polymorphism detection and genotypic identification. These differences could provide a theoretical basis for the rational use of SSR markers in species diversity and other related research.
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ISSN:1008-1321
2095-4034
1993-0372
2197-5620
DOI:10.1007/s11632-012-0106-5