Microsatellite analysis reveals the genetic structure and gene flow of the aquatic quillwort Isoetes sinensis, a critically endangered species in China

Isoetes sinensis is a critically endangered aquatic quillwort, occurring in two fragmented sites of China (Xiuning county of Anhui; Jiande county of Zhejiang). During a five-year period (2004-2009), the areas and sizes of the two populations diminished dramatically due to intensive human activities. Genetic structure of the species was investigated using simple sequence repeat makers (SSRs). For seven nuclear microsatellites, high levels of genetic diversity were found within populations (H_E = 0.324-0.447). Strong genetic differentiation was detected between populations (G_ST = 0.376), while weak genetic differentiation was found within populations (G_ST = 0.026-0.080). Notably, in contrast to the source-sink model suggested by previous study (Chen et al., 2009), the migration pattern of I. sinensis along the Xin’an River is best explained by the linear symmetrical non-adjacent flow model (LSNF), which indicates that intensive human activities of recent years have greatly affected the gene exchange pattern among I. sinensis subpopulations.     

Genetic differentiation in endangered Gynostemma pentaphyllum (Thunb.) Makino based on ISSR polymorphism and its implications for conservation

Studies were performed to investigate the genetic variation of 14 natural populations of Gynostemma pentaphyllum (Thunb.) Makino, an outcrossing clonal plant species in China, using inter-simple sequence repeat (ISSR) markers. Fourteen selected primers were used to amplify DNA samples from 140 individuals, and totally 194 loci were detected. The percentage of polymorphic bands (PPBs) showed that the genetic diversity was pretty high at the species level (PPB = 96.39%) but quite low at the population level (PPB = 1.03–25.26%). Shannon's information index (I) and Nei's gene diversity (h) displayed a similar trend to PPB. According to the hierarchical analysis of molecular variance (AMOVA) and Nei's analysis of gene diversity, the percentages of genetic variation among populations were 88.66 and 88.94%, respectively, indicating a high level of inter-population genetic differentiation. The low levels of genetic diversity within populations and high genetic differentiation among populations were assumed to result from the limited gene flow, the clonal nature and genetic drift. Based on the genetic data, effective conservation strategies were proposed for conserving this traditional Chinese medicinal herb. Concerning the management of G. pentaphyllum, we suggested that in situ conservation be an important and practical measure for maintaining the genetic diversity and that a possibly maximum number of populations be conserved. Populations EMS and HLT, in which particularly low levels of genetic variation were characterized, should be given the priority for ex situ conservation.     

Ecological genetics of Reaumuria soongorica (Pall.) Maxim. population in the oasis–desert ecotone in Fukang,Xinjiang, and its implications for molecular evolution

Using inter-simple sequence repeat (ISSR) markers, studies were performed to characterize the population genetic diversity and structure of Reaumuria soongorica (Pall.) Maxim. in the oasis–desert ecotone in Fukang, Xinjiang. Eleven primers were screened to amplify DNA sequences from 132 individuals, which corresponded to seven subpopulations. Totally, 176 loci, all of them polymorphic, were detected, and the percentage of polymorphic bands (PPB) was 100%, indicating a relatively high genetic diversity within the R. soongorica population. According to the hierarchical analysis of molecular variances (AMOVA), the analysis of Shannon's diversity and Nei's analysis of gene diversity, the percentages of genetic variation among subpopulations were 15.87%, 16.28% and 14.58%, respectively, which meant that 83.72–85.42% of total genetic variation occurred within subpopulations. Besides, POPGENE analysis also revealed a relatively high gene flow (N_m = 2.9290) among subpopulations. Correlation analysis showed that there existed no significant correlation between the ISSR-based genetic diversity of the seven R. soongorica subpopulations and their ecological factors (mainly in soil) (P > 0.05). However, on the other hand, Mantel test revealed a significant correlation between inter-subpopulation genetic distances and geographic distances (r = 0.637, P < 0.01), indicating that geographic distance was among the important factors affecting the population genetic structure of R. soongorica. Meanwhile, a comparative analysis was performed between the present ISSR-based and the previously published RAPD-based results, and revealed obvious discrepancies, implying the different evolutionary patterns of the genomic regions sampled by ISSR and RAPD markers.     

Genetic diversity and geographical differentiation of Dipteronia Oliv. (Aceraceae) endemic to China as revealed by AFLP analysis

The genus Dipteronia Oliv. endemic to central and southern China consists of two species, Dipteronia sinensis Oliv. and Dipteronia dyeriana Henry, both of them are rare and endangered. AFLP markers were used to characterize the genetic diversity and geographical differentiation of the genus. Eight out of 32 PstI + 3/MseI + 3 selective primer combinations screened were applied to the analysis on 142 individuals of 17 D. sinensis and 4 D. dyeriana populations, respectively. A total of 324 fragments with 316 polymorphic were amplified. The proportion of polymorphic loci (PPB) was 97.53%. The Nei's gene diversity in D. sinensis and D. dyeriana was 0.3319 and 0.3047, respectively. About 43.6% (G_ST = 0.4356) of the genetic variation occurred among the populations, indicating a relatively high genetic differentiation among the populations. Cluster analysis grouped the 21 populations into two groups according to their species delimitation. The populations of D. sinensis were further divided into three subgroups corresponding to their geographical distributions. Correlation analysis revealed a significant correlation (p < 0.05) between geographical distance and genetic distance of these populations, suggesting that the relatively high genetic differentiation among the populations of D. sinensis might be caused by geographical isolation.     

Microsatellite variability and heterozygote excess in Elymus trachycaulus populations from British Columbia in Canada

Microsatellite markers were used to assess the genetic diversity and population structure in four populations of Elymus trachycaulus from British Columbia and one population of Elymus alaskanus from Northwest Territories. Fourteen microsatellite loci were used in this study. Our results indicated that E. trachycaulus is highly polymorphic, with an average percentage of polymorphic loci of 96.5% over the four populations. Average expected heterozygosity values (H_E or gene diversity) varied from 0.418 to 0.585 with a mean of 0.497. Most of the genetic variation was found within populations (85%) and the differentiation among populations was found to be 15% (F_st = 0.15). Interpopulation genetic distances corresponded well with the geographic distance between the population sites of origin, as well as morphological characteristics. Tests for Hardy–Weinberg equilibrium (HWE) for all loci and all populations revealed that all loci significantly differ from HWE. Subsequent analysis indicated that departure from HWE at some loci was due to an excess of heterozygotes. Possible explanations for heterozygote excess are discussed. The most likely reason for observed heterozygote excess could be due to the polyploidy nature of the species.     

Mating system and population genetic structure of Bruguiera gymnorrhiza (Rhizophoraceae), a viviparous mangrove species in China

In order to explain the diversity patterns and develop the conservation strategies, the population genetic structures and the mating systems of Bruguiera gymnorrhiza from the coastlines of south China were investigated in this study. The mating system parameters were analyzed using progeny arrays for allozyme markers. The multilocus outcrossing rates (tm) ranged from 0.845 (Fugong) to 0.267 (Dongzhai harbor). High allozyme variations within the five collected populations were determined and compared with the published data of other plant species with the mixed mating systems. At species level, the percentage of polymorphic loci (P) was 80%, the average number of alleles per locus (A) was 2.440, and the heterozygosity (He) was 0.293. The total gene diversity within each population (H_S = 0.2782) and the coefficient of genetic differentiation (G_ST = 0.0579) among the populations were estimated. On the basis of this population genetic structure, it is suggested that the gene flow (Nm = 3.85) is quite high, which is possibly related to its water-dispersed hypocotyls. It is also suggested that the mating system of this species is of mixed mating.     

Population genetic differentiation of Schisandra chinensis and Schisandra sphenanthera as revealed by ISSR analysis

Schisandra chinensis (Turcz.) Baill. and Schisandra sphenanthera Rehd. et Wils. are well-known Chinese medicinal plants. The population genetic variation of the two species was studied using inter simple sequence repeat (ISSR) molecular markers. High levels of genetic diversity are revealed in both S. chinensis (P = 88.36%, h = 0.2894, I = 0.4396) and S. sphenanthera (P = 84.09%, H = 0.2782, I = 0.4280). However, the population genetic differentiation is significantly different between the two species. The S. sphenanthera harbors as high as 27% of the genetic variation among populations but 73% within populations, whereas in S. chinensis 17% of the genetic variation occurs among populations and 83% within populations. Both significant (P < 0.05) heterozygosity excess and shifted mode of allele frequency distribution are detected in four out of six populations of S. chinensis and one out of five populations of S. sphenanthera, suggesting the occurrence of recent population bottlenecks in the two species. The different patterns of genetic variation in S. chinensis and S. sphenanthera are discussed in relation to their differences in pollination mechanism, geographic distribution and historical events, and the level of gene flow and genetic drift.     

Morphological and allozyme variation in a collection of Cucumeropsis mannii Naudin (Cucurbitaceae) from Côte d'Ivoire

To set up a rational collecting strategy for germplasm of the edible-seeded cucurbit Cucumeropsis mannii, a study was conducted using 24 morphological and seven putative enzyme markers to determine the intra-specific variability from 16 and 22 accessions (representing three cultivars), respectively. The analysis of variance, showed a significant difference between the three cultivars. Principal component analysis pointed out a variation among individuals, mainly on the basis of flower, fruit, and seed size. Dendrogram with UPGMA method allowed clustering of the cultivars. Genetic diversity indices estimated equalled: 9.96% for the proportion of polymorphic loci (P), 1.10 for the number of alleles (A) and 0.023 for observed heterozygosity (H_o). The level of the within accessions genetic diversity (H_S = 0.078) was higher than among accessions (D_ST = 0.042). Nei's genetic distances between the three cultivars were also low (0.079–0.147), indicating a high degree of similarity of the analysed cultivars.     

Genetic diversity and local population structure in Ambrosina bassii (Araceae,Ambrosineae), a Mediterranean relict species

The effects of habitat fragmentation on the genetic structure of Ambrosina bassii are analyzed. The species, whose reproductive biology is mostly unknown, is the only representative of its genus and tribe and it is endemic to the central Mediterranean area. The selected study area was the island of Sicily, in which wild populations show a wide morphological variability and ecological amplitude. Patterns of within- and among-population genetic diversity in eleven Sicilian populations, occurring in six disjunct areas, were examined by means of allozyme electrophoresis. High levels of genetic diversity were found as shown by the mean expected heterozygosity (H_e = 0.263), the percentage of polymorphic loci (P₉₅ = 65.3), the mean number of alleles per locus (A = 2.0). Genetic differentiation between populations was relatively low (mean F_ST = 0.091 and Nm = 1.98). A very weak correlation exists between genetic distances and geographic distances between populations. Despite its restricted and fragmented geographical range, A. bassii showed (i) high levels of genetic diversity, mainly within populations; (ii) no genetic differentiation between populations and morphotypes.     

Genetic diversity of the threatened aquatic plant Ottelia alismoides in the Yangtze River

Ottelia alismoides is a threatened submerged macrophyte in China. Genetic variation and population structure of 11 O. alismoides populations from lakes in mid-lower reaches of the Yangtze River were assessed by inter-simple sequence repeat (ISSR) markers. Eleven primer combinations produced a total of 130 unambiguous bands of which 57 (43.9%) were polymorphic. O. alismoides exhibited a very low level of intra-population genetic diversity (P_p = 13.0%, H_E = 0.042, I = 0.063). The main factors responsible for that were its short life history and high degree of autogamy in the reproductive system of the species. The F statistics calculated by different approaches consistently revealed a high genetic differentiation among populations, contributing >55% of the total gene diversity. The evident population structure of O. alismoides could be due to self-fertilizing reproduction, restricted gene flow and genetic drift. Estimates of gene flow by F_ST and coalescent-based simulation analysis indicated a restricted recurrent gene exchange among populations (Nm = 0.180, M = 0.190). Genetic drift played a more important role than gene flow in the current population genetic structure of O. alismoides because its habitat range was fragmented and highly influenced by environment changes. The results are discussed in relation to both in situ and ex situ conservation efforts of the species. A conservation strategy for conserving all extant populations to maximize genomic representation of the species is recommended.     

Genetic diversity of the endangered and endemic species Psathyrostachys huashanica natural populations using simple sequence repeats (SSRs) markers

Psathyrostachys huashanica Keng., a species endemic to China, is only distributed in Huashan Mountain in Shaanxi Province. It has been listed as “national first-class protected rare species.” In this study, the microsatellites of barley were used to analyze genetic diversity of P. huashanica populations sampled from three valleys (Huangpu, Xian and Huashan Valleys) in Mt. Huashan. A total of 33 alleles of 11 loci were detected from 266 individuals. The observed average number of alleles (A) is 2.75; the effective number of alleles (Ae) is 1.67. The percentage of polymorphic loci (PPB) is 58.33% in Huangpu Valley, 75% in Xian Valley, 83.33% in Huashan Valley, and the total PPB is 83.33%. About 77.6% of (F_ST = 0.324) genetic diversity was observed within the subpopulations. Genetic differentiation within each subpopulations was higher than that among the subpopulations. Mean genetic distance is 0.17 (range: 0.010–0.401). Correlation analysis detected significant correlation between genetic distance and vertical distance of altitude in Huashan Valley. Differentiation mainly occurred between the higher altitude subpopulations and the lower altitude subpopulations, suggesting that altitude might be the major factor that restricted the gene flow between different altitude subpopulations and resulted in differentiation of subpopulations.     

Low genetic variation detected within the widespread mangrove species Nypa fruticans (Palmae) from Southeast Asia

Genetic diversity within and among six natural populations of Nypa fruticans from China, Vietnam, and Thailand was assessed using SSR and ISSR analysis. Our results showed an extremely low level of genetic diversity of N. fruticans (at the species level, P = 11.76% and 2.88%, He = 0.0279 and 0.0113, I = 0.0470 and 0.0167 by SSRs and ISSRs, respectively) across a total of 183 individuals. No genetic variation was detected within any population except for the Thailand population by SSRs (P = 11.76%, He = 0.0417; I = 0.0622). The bottlenecks during glacial epochs, founder effects, and propagation pattern may be responsible for the extremely low level of genetic diversity of N. fruticans.     

Genetic variability of the tokay gecko based on microsatellite analysis

The black-spotted tokay gecko and red-spotted tokay gecko have different distribution areas and are significantly different in appearance but are classified into the same species Gekko gecko. Twelve microsatellite loci were isolated, characterized and evaluated from wild black-spotted tokay geckos for the first time. Of them, nine loci were successfully amplified in red-spotted tokay geckos using multiplex polymerase chain reactions (PCRs). A total of 208 different alleles were observed in the 70 wild black-spotted and red-spotted tokays, and the average number of alleles per locus was 17.3. The average values for observed heterozygosity, expected heterozygosity and polymorphism information content were 0.762, 0.891 and 0.871, respectively, which showed that the wild G. gecko population had a high level of genetic variability. Both black-spotted tokays and red-spotted tokays showed a significant (P < 0.001) deficit of heterozygotes. The red-spotted tokay (H_E = 0.881, A = 16.4) had a higher level of genetic variability than black-spotted tokay (H_E = 0.804, A = 10.7). The pairwise F_ST (P < 0.001) estimates of the two types of tokay were 0.143, which indicated that there was a significant level of genetic differentiation between the two.     

Genetic diversity of the endangered species Kirengeshoma palmata (Saxifragaceae) in China

In order to investigate the levels of genetic diversity of the endangered species Kirengeshoma palmata (Saxifragaceae), four extant populations were sampled and analyzed using inter-simple sequence repeats (ISSR) markers. We expected a low genetic diversity level, but our results revealed a high level of intraspecific genetic diversity, probably resulting from this species being in a refuge during the last glaciation (at population level: P = 63.25%, A_e = 1.47, H_E = 0.26 and H_O = 0.37; at species level: P = 79.00%, A = 1.5538, H_T = 0.2586 and H_sp = 0.3104). A low level of genetic differentiation among populations was detected based on Nei's genetic diversity analysis (16.69%) and AMOVA (19.36%). Populations shared high levels of genetic identity. Insect pollination and seed dispersal by wind may have facilitated extensive gene flow and are likely responsible for this present structure of genetic variation.     

Microsatellite diversity and mating system of Sinojackia xylocarpa (Styracaceae), a species extinct in the wild

Sinojackia xylocarpa is a Chinese endemic species that is extinct in the wild but extant in botanical gardens. Microsatellites were used to investigate the genetic diversity and mating system of this species for future use in a reintroduction program. Ex situ conserved populations of S. xylocarpa maintain intermediate levels of genetic diversity (H_E = 0.570–0.640). However, a general and significant heterozygote excess was found, with a mean F_IS of −0.103. S. xylocarpa was determined to be predominantly outcrossing (t_m = 0.992; t_s = 1.092). Population size and genetic diversity were found to be positively correlated (r = 0.991; P = 0.084). Principal coordinate analysis (PCA) suggests that all extant individuals are derived from two source populations. Reintroduction strategies of S. xylocarpa were proposed on the basis of these results.     

Population genetics of Cryptosporidium meleagridis in humans and birds: evidence for cross-species transmission

Population genetic studies have been used to understand the transmission of pathogens in humans and animals, especially the role of zoonotic infections and evolution and dispersal of virulent subtypes. In this study, we analysed the genetic diversity and population structure of Cryptosporidium meleagridis, the only known Cryptosporidium species that infects both avian and mammalian hosts and is responsible for approximately 10% of human cryptosporidiosis in some areas. A total of 62 C. meleagridis specimens from children, AIDS patients, and birds in Lima, Peru were characterised by sequence analysis of the ssrRNA gene and five minisatellite, microsatellite and polymorphic markers in chromosome 6, including the 60 kDa glycoprotein (gp60), 47 kDa glycoprotein (CP47), a serine repeat antigen (MSC6-5), retinitis pigmentosa GTPase regulator (RPGR) and thrombospondin protein 8 (TSP8). The multilocus sequence analysis identified concurrent infections with Cryptosporidium hominis in four AIDS patients and three children. Unique subtypes of C. meleagridis ranged from eight at the gp60 locus (gene diversity –Hd = 0.651), three at the RPGR (Hd = 0.556), three at the MSC6-5 locus (Hd = 0.242), two at TSP8 (Hd = 0.198), to one at CP47 (monomorphic), much lower than that of C. hominis in the same area. Intragenic linkage disequilibrium was strong and complete at all gene loci. Intergenic linkage disequilibrium was highly significant (P < 0.001) for all pairs of polymorphic loci. Two major groups of subtypes were seen, with most subtypes belonging to group 1. Within group 1, there was no clear population segregation, and two of the 14 multilocus subtypes of C. meleagridis were found in both AIDS patients and birds. We believe that these results provide the first evidence of a clonal population structure of C. meleagridis and the likely occurrence of cross-species transmission of C. meleagridis between birds and humans.     

Inter-simple sequence repeat (ISSR) analysis of genetic variation of Chondrus crispus populations from North Atlantic

ISSR analysis was used to investigate genetic variations of 184 haploid and diploid samples from nine North Atlantic Chondrus crispus Stackhouse populations and one outgroup Yellow Sea Chondrus ocellatus Holmes population. Twenty-two of 50 primers were selected and 163 loci were scored for genetic diversity analysis. Genetic diversity varied among populations, percentage of polymorphic bands (PPB) ranged from 27.0 to 55.8%, H (Nei's genetic diversity) ranged from 0.11 to 0.20 and I (Shannon's information index) ranged from 0.16 to 0.30. Estimators PPB, H and I had similar values in intra-population genetic diversity, regardless of calculation methods. Analysis of molecular variance (AMOVA) apportioned inter-population and intra-population variations for C. crispus, showing more genetic variance (56.5%) occurred in intra-population, and 43.5% variation among nine populations. The Mantel test suggested that genetic differentiation between nine C. crispus populations was closely related with geographic distances (R = 0.78, P = 0.002). Results suggest that, on larger distance scale (ca. >1000 km), ISSR analysis is useful for determining genetic differentiations of C. crispus populations including morphologically inseparable haploid and diploid individuals.     

Chloroplast DNA variation and phylogeographic patterns in the Chinese endemic marsh herb Sagittaria potamogetifolia

We examined chloroplast DNA (cpDNA) atpB–rbcL intergenic spacer sequences variation within Sagittaria potamogetifolia, an endangered and endemic marsh herb in China. Sequence data were obtained from 54 individuals in six extant populations of the species. Sequences appeared to evolve neutral (Tajima's criterion D = −1.59826, 0.1 > P > 0.05 and Fu and Li's tests D* = −1.44484, P > 0.1; F* = −1.83446, P > 0.1). Eleven haplotypes were identified in S. potamogetifolia. A relatively high level of haplotype diversity (h = 0.0.699) and low level of nucleotide diversity (pi = 0.0035 ± 0.0020) were detected in S. potamogetifolia. Pairwise comparisons of F_st and Nm deduced from cpDNA variation suggested no significant genetic differentiation between populations of S. potamogetifolia excepted for the WY-1 population. Low genetic differentiation among populations and also among regions was consistently indicated by both hierarchical analyses of molecular variance (AMOVA) and the structure of a neighbor-joining tree. Lack of population differentiation between populations or between regions in cpDNA sequences may be due to effects of lower substitution rates or lineage sorting. In the minimum spanning network, all tip haplotypes except for the haplotype J were unique to a particular population, while the interior nodes except for the haplotype E were widespread (haplotype A). From nested clade analysis (NCA), the evolutionary events such as restricted gene flow with isolation by distance and allopatric fragmentation were inferred to responsible for the current distribution of S. potamogetifolia populations, as well as their genetic diversity.     

Population genetic structure and historical demography of grey mullet, Mugil cephalus, along the coast of China,inferred by analysis of the mitochondrial control region

Population genetic structure and historical demography of grey mullet, Mugil cephalus, along the coast of China were examined with a 389-bp segment of mtDNA control region. In total, 117 samples were collected from seven locations and 77 haplotypes were obtained. No haplotype was concurrently presented in all the samples, and samples in Southern and Northern regions had distinctly different haplotypes. Sorting of the data cladistically into phylogenetic trees indicated that these haplotypes can be divided into two main clades. Analysis of molecular variance (AMOVA) indicated significant genetic differentiation among subpopulations in different regions (φ_CT = 0.9505, p < 0.01). The average pairwise differences and φ_ST values (0.8943–0.9464) between regional populations were significant. The net Tumura and Nei genetic distance (0.5577 ± 0.1421) between the two groups was large. The deep and unique divergence between the two groups suggested that each group is likely to represent a distinct species. In contrast to the great genetic divergence on a broad scale, small but significant population subdivisions at a less spatial scale were also detected both in Southern and Northern regions, which support the conclusion that M. cephalus has limited dispersal potential. High haplotype diversity (h = 0.8716 ± 0.1462) and low nucleotide diversity (π = 0.0046 ± 0.0030) were found among the three Northern samples. Among the four Southern samples, however, extraordinarily high levels of both haplotype diversity (h = 0.9886 ± 0.0057) and nucleotide diversity (π = 0.0425 ± 0.0212) were detected. The different polymorphisms suggest an apparent distinguishing demographic history between regionally Southern and Northern populations, though mismatch distribution analyses and neutrality tests implied a late Pleistocene population expansion of both Northern and Southern populations.     

Genetic diversity and biogeography of the traditional Chinese medicine, Gardenia jasminoides, based on AFLP markers

Gardenia jasminoides Ellis is used in traditional Chinese medicine (TCM) in China. Levels of genetic variation and patterns of population structure within and among eight wild or cultivated populations of G. jasminoides Ellis in China were investigated using amplified fragment length polymorphism (AFLP) markers. Of the 11 primers screened, four produced highly reproducible AFLP bands. Using these primers, 244 discernible DNA fragments were generated with 165 bands (67.6%), were polymorphic, indicating considerable genetic variation at the species level. In contrast, there were relatively low levels of polymorphism at the population level with the percentage of polymorphic bands (PPB) ranging from 36.89% to 59.43%. Genetic diversity within populations ranged from 0.2086 to 0.3108, averaging 0.2392 at the species level. A high level of genetic differentiation among populations was detected based on Nei's genetic diversity analysis (76.59%), Shannon's index analysis (64.8%) and AMOVA analysis (72.75%). No significant statistical differences (analysis of molecular variance [AMOVA], p = 0.0639) in AFLP variation were found between regions. However, the variance among populations and within populations differed significantly (p < 0.001). An indirect estimate of historical levels of gene flow (N_m = 1.7448) was consistent with the high mean genetic identity (mean I = 0.9263) found among populations. There is an association between geographic and genetic distances between populations. Presently gene change exists between populations.