Genetic diversity of wild Cymbidium goeringii (Orchidaceae) populations from Hubei based on Inter-simple sequence repeats analysis

A chromosome-scale genome assembly and annotation of the spring orchid (Cymbidium goeringii)

Cymbidium goeringii, commonly known as the spring orchid, has long been favoured for horticultural purposes in Asian countries. It is a popular orchid with much demand for improvement and development for its valuable varieties. Until now, its reference genome has not been published despite its popularity and conservation efforts. Here, we report the de novo assembly of the C. goeringii genome, which is the largest among the orchids published to date, using a strategy that combines short- and long-read sequencing and chromosome conformation capture (Hi-C) information. The total length of all scaffolds is 3.99 Gb, with an N50 scaffold size of 178.2 Mb. A total of 29,556 protein-coding genes were annotated and 3.55 Gb (88.87% of genome) repetitive sequences were identified. We constructed pseudomolecular chromosomes using Hi-C, incorporating 89.4% of the scaffolds in 20 chromosomes. We identified 220 expanded and 106 contracted genes families in C. goeringii after divergence from its close relative. We also identified new gene families, resistance gene analogues and changes within the MADS-box genes, which control a diverse set of developmental processes during orchid evolution. Our high quality chromosomal-level assembly of C. goeringii can provide a platform for elucidating the genomic evolution of orchids, mining functional genes for agronomic traits and for developing molecular markers for accelerated breeding as well as accelerating conservation efforts.

Genetic diversity and population structure assessment using molecular markers and SPAR approach in Illicium griffithii, a medicinally important endangered species of Northeast India

BACKGROUND

Illicium griffithii is an aromatic medicinal tree species that has been listed in the IUCN Red List as an endangered species. Dried seed pods of I. griffithii have a good market potential in the spices and pharmaceutical industries. Fruits are the potential source of shikimic acid and used for the production of oseltamivir (a drug against bird flu). However, in recent years, unscientific harvesting and rampant exploitation of the species has caused a negative and adverse effect on its natural population. Proper knowledge of genetic diversity and population structure is crucial to understand the population dynamics, adaptation, and evolutionary pattern of a particular species for conservation. It was from this view point that the present study was undertaken so as to compare the various types of DNA-based molecular markers namely RAPD, ISSR, DAMD, and SCoT by their efficiency and SPAR approach to evaluate the genetic diversity of I. griffithii as well as to analyze population genetic structure for conservation purpose.

RESULT

A total of 250 discernible bands were generated with 246 bands (98.40 %) being polymorphic in nature. All the primers in combination gave a mean polymorphic information content (PIC) of 0.81 and Rp value (resolving power) of 4.32. Nei's, Gst, and AMOVA analysis showed similar values of genetic differentiation among populations (Gst = 0.396, F_ST = 0.30, respectively), revealing a low level of genetic differentiation among the eight sampled populations. I. griffithii with an estimated gene flow value of Nm = 0.761 was significantly low among populations. Clustering pattern obtained with Bayesian structure and PCoA diagram revealed that intermixing of genetic material across populations is only possible when the populations lie close to each other. This is further validated with UPGMA clustering method where a positive correlation of genetic variability with geographical distance among closely related populations could be clearly seen.

CONCLUSION

The result aids in the identification, collection, and preservation of diverse germplasm of I. griffithii from Arunachal Pradesh and Meghalaya of Northeast India. This would further help in understanding the population structure and genetic diversity among other Illicium species in order to formulate effective conservation strategies for the improvement of this endangered taxa.

Conservation implications of population genetic structure in a threatened orchid Cypripedium tibeticum

Cypripedium tibeticum is a threatened orchid which efficient conservation requires knowledge of its extent and structure of genetic variation. Using two chloroplast DNA fragments (rps16 and trnL-F), we analyzed 157 individuals from 9 populations representing the species range in China. Seven haplotypes were identified. C. tibeticum had high total genetic diversity (H T = 0.80) with major contribution to this diversity made by among-population component (G ST  = 0.64, Φ ST  = 0.86). However, despite high population differentiation there was no clear phylogeographic structure. The populations CY and DC made the greatest contribution to the total gene diversity as well as allelic richness. The possible mechanisms and implications of these findings for conservation of the species are discussed.

Study of Genetic Diversity on Six Species of Indonesian <I>Coelogyne</I> spp. Based on ISSR Markers

BACKGROUND AND OBJECTIVE

Almost all of Coelogyne species from Indonesia are epiphytic. Some of these are facing the extincion and need to be conserved through plant breeding programs. Unfortunately, there are not many research reports on the genetic diversity of orchids which are substantial for genetic conservation and plant breeding program. The study aimed to identify the genetic diversity of some important species of genus Coelogyne spp., performed using inter simple sequence repeats (ISSR) molecular marker.

MATERIALS AND METHODS

The DNA of six orchid species from the genus of Coleogyne spp. was separated and served as samples in the PCR amplification reaction using 10 ISSR primers.

RESULTS

This study found that using six orchid species from the genus of Coelogyne spp. (C. pandurata, C. massangeana, C. mayeriana, C. asperata, C. celebensis and C. rumphii ), the ISSR primers yielded as many as 106 amplified fragments which varied in size from 250-3000 bp.

CONCLUSION

Moreover, this study showed that the polymorphic amplification bands reached as high as 98.9% and the similarity coefficient of the six orchid species studied revolved between 0.32-0.70, meaning that the genetic diversity of the orchid species studied was spread out between 0.30-0.68.

Applicability of ISSR and DAMD markers for phyto-molecular characterization and association with some important biochemical traits of Dendrobium nobile, an endangered medicinal orchid

Dendrobium nobile is an important medicinal orchid having profound importance in traditional herbal drug preparations and pharmacopeias worldwide. Due to various anthropogenic pressures the natural populations of this important orchid species are presently facing threats of extinction. In the present study, genetic and chemical diversity existing amongst 6 natural populations of D. nobile were assessed using molecular markers, and the influence of genetic factors on its phytochemical activity especially antioxidant potential was determined. Molecular fingerprinting of the orchid taxa was performed using ISSR and DAMD markers along with the estimation of total phenolics, flavonoids and alkaloid contents. Antioxidant activity was also measured using DPPH and FRAP assays which cumulatively revealed a significant level of variability across the sampled populations. The representatives from Sikkim in Northeast India revealed higher phytochemical activity whereas those from Mizoram showed lesser activity. Analysis of molecular variance (AMOVA) revealed that variation amongst the populations was significantly higher than within the populations. The data generated by UPGMA and Bayesian analytical models were compared in order to estimate the genetic relationships amongst the D. nobile germplasm sampled from different geographical areas of Northeast India. Interestingly, identical grouping patterns were exhibited by both the approaches. The results of the present study detected a high degree of existing genetic and phytochemical variation amongst the populations in relation to bioclimatic and geographic locations of populations. Our results strongly establish that the cumulative marker approach could be the best suited for assessing the genetic relationships with high accuracy amongst distinct D. nobile accessions.

Conservation genetics of an endangered lady's slipper orchid: Cypripedium japonicum in China

Knowledge about the population genetic variation of the endangered orchid, Cypripedium japonicum, is conducive to the development of conservation strategies. Here, we examined the levels and partitioning of inter-simple sequence repeat (ISSR) diversity (109 loci) in five populations of this orchid to gain insight into its genetic variation and population structure in Eastern and Central China. It harbored considerably lower levels of genetic diversity both at the population (percentage of polymorphic loci (PPL) = 11.19%, Nei’s gene diversity (H) = 0.0416 and Shannon’s information index (I) = 0.0613) and species level (PPL = 38.53%, H = 0.1273 and I = 0.1928) and a significantly higher degree of differentiation among populations (the proportion of the total variance among populations (Φ_pt) = 0.698) than those typical of ISSR-based studies in other orchid species. Furthermore, the Nei’s genetic distances between populations were independent of the corresponding geographical distances. Two main clusters are shown in an arithmetic average (UPGMA) dendrogram, which is in agreement with the results of principal coordinate analysis (PCoA) analysis and the STRUCTURE program. In addition, individuals within a population were more similar to each other than to those in other populations. Based on the genetic data and our field survey, the development of conservation management for this threatened orchid should include habitat protection, artificial gene flow and ex situ measures.

Genetic diversity and population differentiation of Calanthe tsoongiana, a rare and endemic orchid in China

Calanthe tsoongiana is a rare terrestrial orchid endemic to China, and this species has experienced severe habitat loss and fragmentation. Inter-simple sequence repeat (ISSR) markers were employed to assess the genetic diversity and differentiation of six populations of C. tsoongiana. Based on 124 discernible fragments yielded by eleven selected primers, high genetic diversity was revealed at the species level; however, genetic diversity at the population level was relatively low. High-level genetic differentiation among populations was detected based on analysis of molecular variance (AMOVA), indicating potential limited gene flow. No significant relationship was observed between genetic and geographic distances among the sampled populations. These results suggested that restricted gene flow might be due to habitat fragmentation and reduced population size as a result of human activities. Based on the findings, several conservation strategies were proposed for the preservation of this threatened species.

SPAR methods revealed high genetic diversity within populations and high gene flow of Vanda coerulea Griff ex Lindl (Blue Vanda), an endangered orchid species

Molecular genetic fingerprints of seven populations of Vanda coerulea comprising of thirty-two genotypes from Northeast India were developed using PCR based markers. Genetic variability in the wild genotypes of V. coerulea was analyzed using two different single primer amplification reactions (SPAR) methods, viz., random amplified polymorphic DNA (RAPD) and inter-simple sequence repeats (ISSR). A total of 32 genotypes were used to investigate the existing natural genetic diversity at intra-specific level. Two hundred and twenty six (226) amplification products were scored by RAPD and ISSR, both of which collectively showed 58.88% polymorphism with a mean intra-population genetic diversity (Hpop) of 0.119. However, their level of diversity at inter- and intra-population levels was significant, with the percentage of polymorphic loci (Pp) ranging from 17.70% to 45.13%, Shannon's information index (I) from 0.105 to 0.268 and Nei's gene diversity (h) from 0.072 to 0.185 with mean Nei's gene diversity 0.174 and the overall estimate of gene flow being (Nm) 1.165. Analysis of molecular variance (AMOVA) showed 96.07% of variation at intra-population level, whereas 3.93% variation was recorded at inter-population level. Only one major cluster was detected by cluster analysis using the unweighted pair-group method with arithmetic average (UPGMA). Present investigation suggests the efficiency of SPAR methods to estimate the genetic diversity of V. coerulea and can be seen as a starting point for future research on the population and evolutionary genetics of this species.

Single primer amplification reaction (SPAR) reveals inter- and intra-specific natural genetic variation in five species of Cymbidium (Orchidaceae)

A total of 53 primers belonging to three SPAR methods, viz. RAPD, ISSR and DAMD, collectively produced 456 polymorphic amplicons with 96.6% polymorphism at inter-specific level in five species of Cymbidium, viz. C. aloifolium, C. mastersii, C. elegans, C. eburneum and C. tigrinum, whereas at intra-specific level, the observed polymorphism ranged from 51.2% to 77.1% among them. Three SPARs collectively revealed 25 unique species-specific amplicons; most of them were amplified with RAPD and DAMD primers besides few bands which were either missed (absent) or lost (heterozygosity). UPGMA clustering evidently distinguished the representatives of C. aloifolium and C. tigrinum, with distinct genetic distance, which may be due to their entirely different habitats as well as discrete morphological characteristics. Upon analysis of the data generated, all the three SPAR methods, either independently and/or in combination, revealed wide range of genetic variation between and within five species of Cymbidium. Comparison of matrix of individual SPAR method revealed that analysis of natural genetic variation using combination of SPAR methods, rather than an isolated approach, is highly effective. The critical analyses of the amplicon data are indicative of DAMD as the most powerful SPAR method by showing highest resolving power (Rp) followed by ISSR and RAPD. Alternatively, the total polymorphic information content was highest in case of RAPD followed by other two SPAR methods. Thus, the present investigation for the first time provides a valuable baseline data for genetic variation at inter- and intra-specific levels in horticultural Cymbidiums and also addresses conservation concerns.

Genetic diversity of the endangered and narrow endemic Piperia yadonii (Orchidaceae) assessed with ISSR polymorphisms

Highly endangered plants that are also narrow endemics are generally found to be genetically depauperate and thus are exceedingly susceptible to ecological and anthropological threats that can lead to their extinction. Piperia yadonii is restricted to a single California county within a biodiversity hotspot. We used nine primers to generate intersimple sequence repeat (ISSR) data to assess its genetic diversity and structure. Within each population, 99% of the loci were polymorphic, expected heterozygosity was low, and a majority of the loci were shared with few other populations. Forty percent of the total variation could be attributed to population differentiation while the rest (60%) resides within populations, and the genetic distances between populations were independent of the corresponding geographical distances. High divergence among populations is likely due to fragmentation and limited gene flow. Each population contains several private loci, and ideally, each should be protected to preserve the overall diversity of the species. Because P. yadonii currently retains a modest amount of genetic variation among individuals within populations, preserving and expanding the habitat at each site to allow natural expansion of populations would be additional strategies for its conservation before populations become too small to persist naturally.