OBJECTIVEThis study aimed to analyze the genetic diversity and genetic relationship of germplasm resources of Lonicera japonica in main producing areas of China and provide reference for developing new varieties of L. japonica.

METHODUsing 6 primer combinations, 13 germplasm of L. japonica were analyzed by AFLP marker. The genetic distance was worked out by using DPS V3.01 software, and the cluster was conducted based on UPGMA.

RESULTA total of 435 bands were obtained including 191 polymorphic ones. The average polymorphic frequency was 43.9%. Cluster analysis showed that the relationship of cultivated variety from the same genuine area was near, and the classification result based on AFLP marker of germplasm of L. japonica from Shandong province was basically consistent with those on their morphological character.

CONCLUSIONAFLP marker can indicate the abundant genetic diversity of L. japonica and provide theoretical evidence for reasonable utilization and breeding new cultivar of L. japonica in molecular level.

OBJECTIVETo explore the variety of the genetic polymorphism of eight Prunella germplasm resources by AFLP analysis.

METHODThe amplified fragment length polymorphism (AFLP) tags were applied to screen out 32 selective amplification primer pairs, the amplified bands as original matrix were analyzed with NTSYS-PC software for the similarity between the Prunella germplasm and the construction of genetic phylogenetic tree.

RESULTSDS extraction of genomic Prunella DNA showed a good quality, could meet the requirements of AFLP analysis. From 32 selective amplification primer pairs, 10 pairs with strong polymorphism, better band and higher resolution were used for the construction of the AFLP Prunella fingerprint, all eight Prunella germplasms were separated, they were divided into 3 categories.

CONCLUSIONPrunella germplasm resources are rich in genetic diversity, certain morphological characteristics and differences are associate with genotype.

Restriction site amplification polymorphism (RSAP) markers were employed to access the genetic diversity and relationship of 120 lilyturf germplasms from different geographical origins. Sixteen RSAP primer pairs generated 326 polymorphic bands, of which 318 (97.55%) were polymorphic. The value of polymorphism information content (PIC) ranged from 0.87 to 0.95 with an average of 0.92. These results indicated there was abundant genetic diversity among samples. The results of data analysis on 20 population showed that the value of percentage of polymorphic locus (PPL), Nei's gene diversity (H) and Shannon's information index (I) were 19.94%-85.58%, 0.082 6-0.210 7, 0.120 6-0.328 1 respectively. The most abundant genetic diversity was found in the O. japonicus population from Zhejiang and the least in the Liriope minor population. The genetic distance among 20 population was 0.024 6-0.286 8, of which the minimum genetic distance was 0.024 6 between population I and population 13 while the maximum 0.286 8 between population 5 and population 15. Coefficient of genetic differentiation among natural populations was 0.115 3 (Gst). And the gene differentiation contributed to 43.07% of the total genetic variation among populations and to 56.93% within populations. The total gene flow (Nm) was 0.660 9. UPMGA clustering analysis was basically similar to of the principle coordinate analysis (PCA). The 120 samples were classified into four major groups, which were basically corresponded with the genetic relationships based on morphological traits. The results of UPMGA and PCA were also consistent with geographical origins.
Amplified Fragment Length Polymorphism Analysis ; China ; Genetic Variation ; Liriope Plant ; classification ; genetics ; Phylogeny ; Polymorphism, Restriction Fragment Length

The Direct Amplification of Length Polymorphisms was applied to assess genetic diversity and structure of 7 populations of Dendrobium nobile, comparing one population of D. lituflorum. The five primer combinations were amplified to produce 140 clear bands, and 102 polymorphic bands had been detected with each pair of primer producing 20.4 polymorphic bands on average. At species level, the percentage of polymorphic bands (PPB) was 72.86%, the Nei's gene diversity index (H) was 0.288 9, and the Shannon's information index (I) was 0.424 2. At population level, the average PPB was 47.96%, H was 0.1861, and I was 0.273 9 in 7 populations. The coefficient of gene differentiation (Gst) was 0.338 6 among populations of D. nobile. It showed that 33.86% of the total genetic diversity was attributable to genetic differentiation among populations, while the rest 66.14% was resided between individuals within population.
Amplified Fragment Length Polymorphism Analysis ; methods ; China ; Dendrobium ; classification ; genetics ; Genetic Variation ; Phylogeny ; Polymorphism, Genetic

AFLP technology has been widely used in molecular biology due to its integration of several advantages of high throughput, high efficiency and requiring no sequence information, etc. Great changes have been achieved in recent years in AFLP-related technologies and platforms. There are several AFLP-expanded technologies available. These improved technologies are capable of distinguishing the heterozygote from the homozygote and of converting any AFLP band of interest, without much effort, into locus-specific markers, which can be deployed for massive locus detection and for gene isolation. This review focuses on these favorable changes from conventional AFLP technology into more effective and more practicable AFLP-related ones. Understanding these advancements and AFLP-expanded technologies will facilitate the achievement of our research goals.
Amplified Fragment Length Polymorphism Analysis ; methods ; Microsatellite Repeats ; Polymorphism, Single Nucleotide ; Quantitative Trait Loci

OBJECTIVETo research the genetic diversity of different Rhodiola rosea geographical populations in Tianshan Mountain, China;

METHODThe genetic diversity of eighteen R. rosea geological populations from six niches was estimated using amplified fragment length polymorphism (AFLP) markers. The data of amplified bands were analyzed by the software POPGENE v1.31 (32-bit) and SPSS.

RESULTThe nine primers employed produced a total of 238 discernable and reproducible amplified fragments. There were 228 polymorphic bands. The percentage of polymorphic bands with in different populations was 95.6%. Genetic diversity analysis showed that average number of alleles per loci was Na = 1.4883, effective number of alleles per loci Ne = 1.3907, Neis gene diversity index H = 0.2170, Shannon's information index I = 0.3108, the percentage of polymorphic loci P = 52.71, genetic differentiation among populations Gst = 0.364; UPGMA cluster analysis based on genetic distance data divided eighteen populations into two clusters: Cluster I composed of twelve populations and Cluster II 6 populations which distributed in attitude upper 3 175 m;

CONCLUSIONOur researches suggest that the best niche of R. rosea was at attitude between 3 150-3 250 m; this region is important for the conservation of R. rosea germplasm resource.

In order to investigate the genetic basis of morphological variation of tetraploid plantlets of Atractylodes macrocephala, diploid plantlets were taken as experimental material, sterile filtration colchicine was used to soak 0.5-1.0 cm long buds. The difference between morphology and stomatal of diploid and tetraploid of A. macrocephala was compared, and genome polymorphism was explored by AFLP. The results showed that the buds dipped in 0.1% colchicine solution for 36 h was optimal conditions to induce tetraploid of A. macrocephala with induction rate of 32.0%. Morphological indexes such as leaf area index, leaf length and width, the density of stomas and the number of chloroplast of tetraploid were distinctly different from diploid. Four hundred and fifty-one bands ranging with 80-500 bp were amplified with 24 pairs of primers, the rate of polymorphism was 32.59%. These amplification sites of diploid were different from tetraploid of A. macrocephala, and the differences in morphology of them were reflected in the DNA polymorphism.
Amplified Fragment Length Polymorphism Analysis ; methods ; Atractylodes ; genetics ; Sequence Analysis, DNA ; Tetraploidy

OBJECTIVETo explore the once sampling quantitation of Houttuynia cordata through its DNA polymorphic bands that carried information entropy, from other form that the expression of traditional Chinese medicine polymorphism, genetic polymorphism, of traditional Chinese medicine.

METHODThe technique of inter simple sequence repeat (ISSR) was applied to analyze genetic polymorphism of H. cordata samples from the same GAP producing area, the DNA genetic bands were transformed its into the information entropy, and the minimum once sampling quantitation with the mathematical mode was measured.

RESULTOne hundred and thirty-four DNA bands were obtained by using 9 screened ISSR primers to amplify from 46 strains DNA samples of H. cordata from the same GAP, the information entropy was H=0.365 6-0.978 6, and RSD was 14.75%. The once sampling quantitation was W=11.22 kg (863 strains).

CONCLUSIONThe "once minimum sampling quantitation" were calculated from the angle of the genetic polymorphism of H. cordata, and a great differences between this volume and the amount from the angle of fingerprint were found.

OBJECTIVETo study the genetic background of Evodia rutaecarpa by AFLP, and analyze the genetic diversity of E. rutaecarpa from different areas.

METHODE. rutaecarpa genomic DNA was extracted. The AFLP reaction system was established and AFLP primer pairs were chosen for the analysis. Forty-six individuals of E. rutaecarpa which from five provinces were analyzed by AFLP. The NTSYS-pc 2.1 software was used for cluster analysis.

RESULTSix out of the original 72 pairs of primers were optimized for the study; AFLP analysis revealed the similarity coefficient of 0.53, the samples of E. rutaecarpa var. officinalis from Zhejiang province was separated from other accessions; E. rutaecarpa var. officinalis also showed more pronounced genetic variation than the E. rutaecarpa, and strong geo-related relevance.

CONCLUSIONVariance of genetic background of E. rutaecarpa are large, AFLP analysis method can obviously identify different varieties of E. rutaecarpa, and can detect the genetic characteristics of inter-regional differences.

OBJECTIVETo explore the genetic diversity and relationship of different Alpinia officinarum germplasm.

METHODAmplified fragment length polymorphism (AFLP) markers were developed to analyze genetic polymorphism in A. officinarun from eight resources. The amplified fragments were used as primary matrix with NTSYSpc-2.11F software to analyze the similarity between the A. officinarum germplasm and to construct the genetic phylogenetic tree.

RESULTA total of 1,120 fragments were genotyped using AFLP with eight prime combinations. Analysis identified 1,044 polymorphic fragments, accounting for 92.57% of the total detected variation. Genetic phylogenetic tree analysis indicates that three categories can be divided among the eight resources of A. officinanrum.

CONCLUSIONSignificant polymorphism and genetic diversity can be observed among A. officinarum germplasm resources.