QI Liwang scite author profile

QI Liwang

3Publications

20Citation Statements Received

93Citation Statements Given

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210

Affiliations

Research Institute of Forestry, Chinese Academy of Forestry

Publications

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ISSR and AFLP identification and genetic relationships of Chinese elite accessions from the genusPopulus

Gao¹,

Zhang²,

Liwang³

et al. 2006

Ann. For. Sci.

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-Inter-simple sequence repeat polymorphism (ISSR) and amplified fragment length polymorphism (AFLP) analysis techniques were used in this study for the genetic fingerprinting and identification of 28 important Chinese poplar accessions. After fingerprinting, the genetic relationships among the accessions were determined. Each of three ISSR primers and four AFLP primer pairs produced fingerprint profiles that were unique to each of the accessions studied, and thus could be used solely for their identification. In general, the molecular data separated accessions from different poplar sections, and also distinguished between native and exotic accessions. In conclusion, both ISSR and AFLP could be applied to identify large numbers of poplar accessions, and could also be used to rapidly determine the genetic relationships among them. Furthermore, it is useful to conduct comparative studies with different marker systems when investigating the genetic relationships of poplar accessions.

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Genetic regulation by non-coding RNAs

Liwang

Zhang

et al. 2006

SCI CHINA SER C

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Large scale cDNA sequencing and genome tiling array studies have shown that around 50% of genomic DNA in humans is transcribed, of which 2% is translated into proteins and the remaining 98% is non-coding RNAs (ncRNAs). There is mounting evidence that these ncRNAs play critical roles in regulating DNA structure, RNA expression, protein translation and protein functions through multiple genetic mechanisms, and thus affect normal development of organisms at all levels. Today, we know very little about the regulatory mechanisms and functions of these ncRNAs, which is clearly essential knowledge for understanding the secret of life. To promote this emerging research subject of critical importance, in this paper we review (1) ncRNAs' past and present, (2) regulatory mechanisms and their functions, (3) experimental strategies for identifying novel ncRNAs, (4) experimental strategies for investigating their functions, and (5) methodologies and examples of the application of ncRNAs.

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Karyotype analysis and physical mapping of 45S rDNA in eight species of Sophora, Robinia, and Amorpha

et al. 2006

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The karyotype analysis and physical locations of 45S rDNA were carried out by means of fluorescence in situ hybridization in three species, and two forms of Sophora, two species of Robina, and one species of Amorpha. S. japonica L., S. japonica L. f. oligophylla Franch., S. japonica L. f. pendula Loud., and S. xanthantha C. Y. Ma. are all tetraploids with 2n = 28. There were four 45S rDNA sites in pericentromeric regions of two pairs of chromosomes in each of them. S. rubriflora Tsoong. is a triploid with 2n = 21, and three sites were located in each satellite of group 5 chromosomes. In R. pseudoacacia L. (2n = 2x = 22), we examined four intensive signals in telomeric regions of two pairs of satellite chromosomes. In R. hispida L. (2n = 2x = 30), there were four other signals in centromeric regions besides those like in R. pseudoacacia. Amorpha fruticosa L. has most chromosomes (2n = 40) among the eight materials, however, there were only six 45S rDNA loci and they laid in centromeric regions, and satellites of three pairs of chromosomes. 45S rDNA is a valuable chromosomal landmark in karyotype analysis. The distribution and genomic organization of rDNA in the three genera were also discussed.

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QI Liwang

ISSR and AFLP identification and genetic relationships of Chinese elite accessions from the genusPopulus

Genetic regulation by non-coding RNAs

Karyotype analysis and physical mapping of 45S rDNA in eight species of Sophora, Robinia, and Amorpha

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