There is growing interest in the genetic analysis of schizophrenia using endophenotypes rather than clinical diagnosis or symptom dimensions. Endophenotypes could be alternative phenotypes for the clinical phenotypes. With their intermedicate and quantitative characteristics, endophenotypes could be functionally important links in the pathways between the genetic variation and clinical expression of the disorder. In this regard, the neurophysiological and neurocognitive endophenotypes used in the genetic analysis of schizophrenia have been reviewed.
Diagnosis ; Endophenotypes* ; Genetic Variation ; Genetics* ; Phenotype ; Schizophrenia*

OBJECTIVETo study genetic diversity and genetic relationships among Lonicera macranthoides cultivars.

METHODFive cultivars were estimated by ISSR and SRAP. The data of amplified bands were analyzed by Treeconw software. The system diagram of genetic relationship was built by UPGMA.

RESULTTwenty ISSR primers amplified 186 bands with 103 (54.63%) polymorphic bands and 58 SRAP primer combinations amplified 591 bands with 347(55.46%) polymorphic bands. Genetic distance ranges were 0.058 4-0.230 8 (by ISSRs) and 0.1071-0.2611 (by SRAPs). Both ISSR and SRAP analyses revealed a middle level of genetic diversity in L. macranthoides cultivars. The dendrograms based on SRAP and ISSR markers were not all the same.

CONCLUSIONThe genetic diversity of L. macranthoides cultivars is middle. ISSR and SRAP markers can be effectively applied to genetic analysis in L. macranthoides cultivars.

Genetic Variation ; Lonicera ; genetics ; Polymorphism, Genetic ; Software

OBJECTIVETo analyze the genetic difference of biological characters on germplasm resources of Sophora alopecuroides.

METHODTwenty-three populations of S. alopecuroides from Ningxia, Gansu, Qinghai, Xinjiang and Inner Mongolian were used to analyze the seed size, 1 000-grain weight, and germination characteristics and so on.

RESULTIt showed that there were significant differences in seed size, 1 000-grain weight and the vitality of seeds. The biggest seed of S. alopecuroides was 4.7 mm x 3.5 mm, and the smallest was 3.8 mm x 2.9 mm, and the 1 000-grain weight was 15-26 g. Results of seeds vitality in 8 populations indicated that the highest vitality of seeds were No. 103 and No. 122. The germination index was 36.51 and 36.24 respectively, and the vitality index was 1 323.49 and 1 274.56. The coefficient of variation in seed traits exceeded 10% except the seed size.

CONCLUSIONThere are some differences and different heredity background in various S. alopecuroides germplasm resources.

Genetic Variation ; Germination ; Sophora ; classification ; genetics ; physiology

Illumina Xten was employed for shallow sequencing of Panax ginseng(ginseng) samples, MISA for screening of SSR loci, and Primer 3 for primer design. Polymorphic primers were screened from 180 primers. From the successfully amplified polymorphic primers, 15 primers which featured clear peak shape, good polymorphism, and ease of statistics were selected and used to evaluate the genetic diversity and germplasm resources of 36 ginseng accessions with different fruit colors from Jilin province. The results showed that red-fruit ginseng population had high genetic diversity with the average number of alleles(N_a) of 1.031 and haploid genetic diversity(h) of 0.172. The neighbor-joining cluster analysis demonstrated that the germplasms of red-fruit and yellow-fruit ginseng populations were obviously intermixed, and pick-fruit ginseng germplasms clustered into a single clade. The results of STRUCTURE analysis showed high proportion of single genotype in pick-fruit ginseng germplasm and abundant genotypes in red-fruit and yellow-fruit ginseng germplasms with obvious germplasm mixing. AMOVA revealed that genetic variation occurred mainly within populations(62.00%, P<0.001), and rarely among populations(39%, P<0.001), but homogenization was obvious among different populations. In summary, pink-fruit ginseng population may contain rare genotypes, which is the basis for breeding of high-quality high-yield, and multi-resistance varieties, genetic improvement of varieties, and sustainable development and utilization of ginseng germplasm resources.
Fruit/genetics* ; Genetic Variation ; Microsatellite Repeats ; Panax/genetics* ; Plant Breeding

The present study aimed to provide the protection strategies for wild germplasm resources of original plants of Viticis Fructus and a theoretical basis for the sustainable use of Viticis Fructus. The genetic diversity and genetic structures of the 232 indivi-duals in 19 populations of Vitex rotundifolia and V. trifolia were analyzed by eight SSR markers with tools such as Popgene32, GenAlex 6.502, and STRUCTURE. Bottleneck effect was detected for the population with more than 10 individuals. The results indicated that 42 and 26 alleles were detected from the populations of V. rotundifolia and V. trifolia, respectively, with average expected heterozygo-sities of 0.448 6 and 0.583 9, which are indicative of low genetic diversity. AMOVA revealed the obvious genetic variation of V. rotundifolia and V. trifolia within population(84.43%, P<0.01; 60.37%, P<0.01). Furthermore, in eight SSR loci, six from V. rotundifolia populations and two from V. trifolia populations failed to meet Hardy-Weinberg equilibrium expectations(P<0.05), which confirmed that the populations experienced bottleneck effect. As assessed by Mantel test, geographical distance posed slight impacts on the genetic variation between the populations of V. rotundifolia and V. trifolia. Principal component analysis(PCA) and STRUCTURE analysis demonstrated evident introgression of genes among various populations. The original plants of Viticis Fructus were confirmed low in genetic diversity and genetic differentiation level. Therefore, the protection of wild resources of original plants of Viticis Fructus should be strengthened to ensure its sustainable use.
Alleles ; Fruit/genetics* ; Genetic Variation ; Geography ; Microsatellite Repeats ; Vitex/genetics*

To explore the genetic diversity of Asarum sieboldii this study developed SSR markers based on transcriptome sequencing results and five populations of A.sieboldii from different regions were used as samples for genetic diversity assessment using software such as GenALEx 6.5, NTSYS 2.1, and Structure 2.3.4. The results showed that 16 SSR markers with high polymorphism and good repeatability were selected from the A.sieboldii transcriptome. Primers designed based on the flanking sequences of these markers successfully amplified 56 polymorphic fragments from 150 individual samples of the five A.sieboldii populations. On average, each primer amplified 3.5 polymorphic fragments, ranging from 2 to 8. The mean values of expected heterozygosity(H_e), Shannon's diversity index(I), Nei's gene diversity index(H), and the polymorphic information content(PIC) were 0.172, 0.281, 0.429, and 0.382, respectively. The mean population differentiation coefficient(F_(ST)) was 0.588, consistent with the analysis of molecular variance(AMOVA) results, which indicated greater genetic variation among A.sieboldii populations(69%) than that within populations(31%). The percentage of polymorphic loci(PPL) ranged from highest to lowest as SNJ>LN>SY>SZ>TB. Principal coordinate analysis(PCoA) and UPGMA clustering analysis further revealed genetic clustering of A.sieboldii individuals based on their geographical distribution, consistent with the results of the structure clustering analysis. In summary, the SSR markers developed from the transcriptome effectively assessed the genetic differentiation and population structure of natural A.sieboldii populations, revealing a relatively low genetic diversity in A.sieboldii, with genetic variation primarily observed at the population level and a correlation between population differentiation and geographic distance.
Humans ; Genetic Variation ; Asarum ; Transcriptome/genetics* ; Microsatellite Repeats/genetics* ; Phylogeny

DNA pooling, a fast and economic study strategy, is widely used in areas of scientific research. In spite of various limits, researchers are making their efforts to improve DNA pooling toward a more perfect direction, including allele frequency detection and estimation of haplotypes. In haplotype estimation, more and more analyzing Methods originated from the expectation-maximization algorithm have appeared, with improved accuracy and practicality, such as HaploPool algorithm and PoooL algorithm.
Algorithms ; DNA ; genetics ; Gene Frequency ; genetics ; Gene Pool ; Genetic Variation ; genetics ; Genotyping Techniques ; Haplotypes ; genetics ; Humans

Jatropha curcas L., has been widely recognized as a potential source of biodiesel. In this review, we presented several aspects about the recent progress in molecular biology of J. curcas. First, molecular markers were used to assess its genetic diversity. Second, large-scale genome, transcriptome and proteome analyses were applied for decoding its molecular network. Third, functional characterization of key genes involved in metabolism and regulation of plant development was performed to breed lines with higher quality or higher resistance. Finally, we discussed the limitation of current progress and then proposed the future molecular biology research on J. curcas.
Genetic Variation ; Genome, Plant ; genetics ; Jatropha ; genetics ; Proteome ; genetics ; Transcriptome ; genetics

OBJECTIVETo study the genetic diversity of Coptis deltoidea.

METHODThe genetic diversity of 90 individuals from 8 populations was analyzed by ISSR.

RESULTTwelve primers were selected to produce highly reproducible ISSR bands. Among 128 amplified bands, 94 showed polymorphism, the percentage of polymorphic bands reached 73.44%. Nei's gene diversity index (H) was 0.1925, Shannon's information index (I) was 0.3028, Gst was 0.7212. The genetic distance coefficient and similarity were 0.0858-0.2314 and 0.8046-0.9425, respectively.

CONCLUSIONC. deltoidea held a high genetic diversity and the majority of genetic variation occurs among populations. By cluster analysis, the geographical distribution is very obvious. The ISSR marker can be used for the analysis of genetic diversity and genetic variation of C. deltoidea.

Cluster Analysis ; Coptis ; classification ; genetics ; DNA, Plant ; genetics ; Genetic Variation ; genetics ; Genetics, Population ; Phylogeny ; Polymorphism, Genetic ; genetics

The genetic diversity of three Tibetan herbs, i. e., Sang-Di, E-Dewa and Ye-Xingba (Tibetan names), was studied based on the field collection, specimen identification and DNA sequence analysis. Swertia hispidicalyx, Gentiana lhassica and Scrophularia dentata, as the original plants of the three Tibetan herbs, were collected and identified. The regions of ITS, matK, rbcL, rpoC1, trnL(UAA), psbA-trnH, atpB-rbcL, trnS (GCU)-trnG(UCC), rpl20-rps12, trnL(UAA)-trnF(GAA) and nadl 2nd intron were amplified and sequenced. The ITS regions of S. hispidicalyx and S. dentata were cloned and sequenced, and the sequences were classified into different genotypes. All the sequences were analyzed and compared with those of closely related species. Our studies may provide reference for the genetic diversity analysis and molecular identification of the three Tibetan herbs.
Genetic Variation ; Gentiana ; classification ; genetics ; Phylogeny ; Plant Proteins ; genetics ; Plants, Medicinal ; classification ; genetics ; Scrophularia ; classification ; genetics ; Swertia ; classification ; genetics ; Tibet