Project description:Conservation genomics of an endangered tree species Hopea reticulata

Project description:WGS of Hopea hainanensis

Project description:The giant panda (Ailuropoda melanoleuca) stands as a flagship and umbrella species, symbolizing global biodiversity. While traditional assisted reproductive technology faces constraints in safeguarding the genetic diversity of giant pandas and bolstering the population size of giant pandas, induced pluripotent stem cells (iPSCs) known for their capacity to differentiate into diverse cells types, including germ cells, present a transformative potential for conservation of endangered animals. In our study, we isolated primary fibroblast cells from an individual giant panda and successfully generated giant panda induced pluripotent stem cells (GPiPSCs) through a non-integrating episomal vectors reprogramming method. Characterization of these GPiPSCs revealed their state of primed pluripotency and demonstrated their potential for differentiation. Furthermore, we innovatively formulated a species-specific chemically defined FACL medium and unraveled the intricate signaling pathway networks responsible for maintaining the pluripotency and fostering cell proliferation of GPiPSCs. This study provides key insights into rare species iPSCs, offering materials for panda characteristics research and laying the groundwork for in vitro giant panda gamete generation, potentially aiding endangered species conservation.

Project description:Induced pluripotent stem cells (iPSCs) can provide biological resource for functional and conservation research for various species. However, the understanding of species variations of mammalian iPSCs is still limited. Here, we report the first generation of iPSCs from the endangered species Grevy's zebra (Equus grevyi; gz-iPSCs). We reprogram primary fibroblasts with human reprogramming transcription factors, OCT3/4, SOX2, KLF4, and c-MYC, with the retroviral method and confirmed the pluripotency and differentiation potential. In light of RNA sequencing analysis, generated gz-iPSCs robustly express genes associated with pluripotency and reprogramming processes, including epithelial-to-mesenchymal and mesenchymal-to-epithelial transitions (EMT-MET). Comparative transcriptomics with other species reveals patterns of gene expressions among mammalian PSCs and detects evolutionary conservation of pluripotency-associated genes and plausible importance of translation process. This work will aid in providing biological resource for this endangered species and enables new insight into the evolution of the mammalian PSCs.

Project description:Orangutans are an endangered species whose natural habitats are restricted to the Southeast Asian islands of Borneo and Sumatra. For potential species conservation and functional genomics studies, we derived induced pluripotent stem cells (iPSCs) from cryopreserved skin fibroblasts obtained from captive orangutans. We report the gene expression profiles of iPSCs and skin fibroblasts derived from orangtuans.

Project description:Cyclocarya (Juglandaceae) is a genus comprising only one species (C. paliurus (Batal.) Iljin.), which is considered an endangered tree species in China . It belongs to three types of protected plants and is mainly distributed in Hunan, Jiangxi, Anhui, and Guizhou.we investigated the genetic mechanisms of ER stress in C. paliurus by performing transcriptome analysis to compare the profiles of ER stress-related gene expression via different time-course Tunicamycin (TM) treatment（0 hour, 6 hour,14 hour）. A total 196,207 unigenes were detected, with 1,867 down-regulated and 3,040 up-regulated differentially expressed genes (DEGs) found in both treatment (TM_6h and TM_14h )compare to control(TM_0h).

Project description:The black-footed ferret (Mustela nigripes) is a star example of the efforts of conservation programs in bringing endangered species back from the brink of extinction. As one of the world’s most endangered mammals, the vast majority of black-footed ferrets living in the wild today are the offspring of a founding captive population. The success of this ongoing breeding program, however, is threatened by inbreeding depression and the observed decline in pregnancy rates since its founding. As the wild and modern captive populations share a genetic history, the greatest difference between the two groups is the captive environment of the breeding program. In this study, we used RNA sequencing and proteomics for the first time in black-footed ferrets to explore whether the diet of wild ferrets versus captive diet variants could explain the differences in fertility and sperm characteristics observed between each population. We find that changes in both the transcriptional and proteomic profile of black-footed ferret ejaculate are strongly associated with differences in fertility, especially in pathways associated with innate immunity and metabolism; that transcriptional changes are further exacerbated by diet. Overall, our results support the hypothesis of ongoing environmental-dependent inbreeding depression in the black-footed ferret, with a need to re-evaluate dietary and environmental parameters of the conservation program; and also illustrates the value of multi-level genomics for conservation management programs.

Project description:Research on the effects of contaminants on fishes is often conducted on well-studied model test species, whose responses may be different than those of species of conservation concern. We used an oligonucleotide microarray to examine the effects of permethrin, a widely used pyrethroid pesticide, on a critically endangered fish species endemic to Northern California, the delta smelt (Hypomesus transpacificus). These results demonstrate the effects of a widely used pesticide on a sensitive fish species at concentrations below those that affect model test species.

Project description:Research on the effects of contaminants on fishes is often conducted on well-studied model test species, whose responses may be different than those of species of conservation concern. We used an oligonucleotide microarray to examine the effects of permethrin, a widely used pyrethroid pesticide, on a critically endangered fish species endemic to Northern California, the delta smelt (Hypomesus transpacificus). These results demonstrate the effects of a widely used pesticide on a sensitive fish species at concentrations below those that affect model test species. Twenty samples were run on twenty arrays, there were four replicates for each of four permethrin exposure concentrations and a control group.

Project description:ORG.one project-Diospyros crumenata, Conservation of a Critically Endangered Tree Species in the Western Ghats Biodiversity Hotspot