Genetic diversity analysis of Rhododendron aureum Georgi (Ericaceae) located on Changbai Mountain using ISSR and RAPD markers

Liu, Yan-Fei; Ming, Xing; Zhao, Wei; Fan, Rong-jun; Luo, Shihua; Chen, Xia

doi:10.1007/s00606-012-0601-0

Cited by 31 publications

(23 citation statements)

References 48 publications

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“…Studies also show that genetic variations occurred along elevation gradients because topographical heterogeneity of plants habitat causes substantial changes in the environment (Byars et al 2009;Kumar et al 2014;Ohsawa and Ide 2008). It is also reported that at different altitudes strong isolation of populations may occur due to drastic differences in phenology between higher and lower altitudes and mountain barriers which restricts the gene flow between the populations causing complex and varied genetic variations (Arnaud-Haond et al 2006;Kumar et al 2014;Liu et al 2012). This is also supported by the present study where populations of the plain or sloppy belts of Garo hills exhibit low levels of genetic diversity and are distinct from the populations of the hilly terrain of Khasi, Jaintia and Ri Bhoi districts of Meghalaya, where diversity is higher.…”

Section: Discussionmentioning

confidence: 99%

Efficacy of RAPD, ISSR and DAMD markers in assessment of genetic variability and population structure of wild Musa acuminata colla

Lamare

Rao

2015

Physiol Mol Biol Plants

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North east India is considered as one of the major biodiversity hotspots worldwide and centre of origin of several plant species including Musa. Musa acuminata Colla is known to be one of the wild progenitors of cultivated bananas and plantains. Three single primer based DNA marker techniques viz., random amplified polymorphic DNA (RAPD), inter simple sequence repeat (ISSR) and directed amplification of minisatellites DNA (DAMD) were used for diversity diagnostics among 25 genotypes of wild M. acuminata collected from Meghalaya province of north east India. A total of 58 primers (26-RAPD, 21-ISSR, and11-DAMD) yielded 451 DNA fragments, of which 395 (87.58 %) were found to be polymorphic in nature. The polymorphic information content (PIC) values were almost identical for each marker system. The resolving power of the marker system was found to be highest in RAPD (3.96) whereas ISSR resolved highest marker index (16.39) in the study. Selected amplicon data obtained through single primer amplification reactions were utilized for determination of diversity within and among the populations of M. acuminata. Nei's genetic differentiation (Gst) value (0.451) indicated higher proportion of the genetic variation within the populations which is supported by the AMOVA analysis (88 %). The study provides insight into the efficacy of RAPD, ISSR and DAMD to analyse the genetic variation existing in the wild Musa germplasm, which can further be exploited for quality trait improvement and domestication of such important horticultural crops. The genetic diversity based population structure may shed light on the genetic basis of speciation and evolution of various species within the genus Musa.

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Section: Discussionmentioning

confidence: 99%

Efficacy of RAPD, ISSR and DAMD markers in assessment of genetic variability and population structure of wild Musa acuminata colla

Lamare

Rao

2015

Physiol Mol Biol Plants

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“…ISSRs have been previously successfully used to study the genetic variation of species of conservation concern (e.g. George et al 2009;Liu et al 2012;Cires et al 2013;Xing et al 2015), including Pittosporum Banks ex Solander species (Carrodus 2009;Clarkson 2011;Mendes et al 2011;Clarkson et al 2012).…”

Section: Introductionmentioning

confidence: 99%

A preliminary conservation genetic study ofPittosporum obcordatum(Pittosporaceae), an endemic New Zealand species with a disjunct distribution

Wright

Hutchison²,

Hale

et al. 2017

New Zealand Journal of Botany

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Pittosporum obcordatum (Pittosporaceae; heart-leaved kōhūhū) is an endemic New Zealand plant species that is classified as Threatened-Nationally Vulnerable. It has a disjunct distribution and is only known from relatively few and small populations. Using 10 Inter-Simple Sequence Repeat markers (ISSRs), we studied patterns of genetic diversity and genetic differentiation among eight out of the c. 14 populations of this species to inform its conservation management. Pittosporum obcordatum has low genetic diversity at the population level (uH e = 0.169) compared to other longlived and outcrossing species, but genetic diversity is relatively high in comparison with several other threatened species. Spearman's Rank Correlation Coefficients suggest significant positive correlations between population size and genetic diversity as measured by the percentage of polymorphic loci and uH e. Pittosporum obcordatum also shows relatively high levels of genetic differentiation among populations (AMOVA-derived Φ' st = 0.508, P < 0.001; all pairwise Φ st values P < 0.05), indicating low genetic connectivity. Populations with relatively few plants are therefore prone to further reductions in genetic diversity through inbreeding and genetic drift. Of these, especially the Kaitaia, Owen Valley and Paengaroa populations are of conservation concern, because they contain private alleles, and therefore notably contribute to the genetic diversity of P. obcordatum.

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“…Species of the genus Rhododendron, one of the most valuable and largest genera of woody plants, are dominant shrubs with frequently narrow distribution in their natural habitats, whose current conservation status need attention (Li et al 2015). However, there are only a few studies of genetic diversity in Rhododendron species carried out with microsatellite markers (Liu et al 2012, Song et al 2012, Sharma et al 2014, Wu et al 2014b, Wang et al 2016. In general, widespread and long-lived plant species tend to possess high levels of genetic diversity, with H E ranging from 0.3 to 0.8 (Takezaki andNei 1996, Wang et al 2013a).…”

Section: Discussionmentioning

confidence: 99%

Genetic diversity and population structure of Rhododendron simsii (Ericaceae) as revealed by microsatellite markers

Wang

Jin

YanYan

et al. 2019

Nordic Journal of Botany

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Rhododendron simsii Planch. (Ericaceae) is a valuable horticultural and medicinal plant species. In this study, the genetic diversity of eight wild R. simsii populations from the Dabie Mountains (central China) was investigated with 29 microsatellite markers. The results showed that R. simsii harbored a high level of genetic diversity (HE: 0.64–0.79; HO: 0.71–0.94; I = 1.917; h = 0.826), and 84.34% of this genetic variation was maintained within populations, while variation among populations only accounted for 15.66%. The number of alleles ranged from 6 to 11, with an average of 9.069. Heterozygote excess was found, with the mean FIS and FIT values of −0.1739 and 0.0092, respectively. The average value of gene flow (Nm) was 1.3525. Within‐population, genetic diversity (I) ranged from 1.131 to 1.681. Cluster analyses divided the eight populations into two clades: the ‘Ltjiuzihe’ population formed its own cluster, while the other seven populations clustered together. There was a weak negative correlation between genetic and geographic distance. The results are highly relevant for the conservation and sustainable utilization of wild R. simsii germplasm resources in central China.

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Genetic diversity analysis of Rhododendron aureum Georgi (Ericaceae) located on Changbai Mountain using ISSR and RAPD markers

Cited by 31 publications

References 48 publications

Efficacy of RAPD, ISSR and DAMD markers in assessment of genetic variability and population structure of wild Musa acuminata colla

Efficacy of RAPD, ISSR and DAMD markers in assessment of genetic variability and population structure of wild Musa acuminata colla

A preliminary conservation genetic study ofPittosporum obcordatum(Pittosporaceae), an endemic New Zealand species with a disjunct distribution

Genetic diversity and population structure of Rhododendron simsii (Ericaceae) as revealed by microsatellite markers

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