Shiyang He scite author profile

BackgroundAn emerging cavefish model, the cyprinid genus Sinocyclocheilus, is endemic to the massive southwestern karst area adjacent to the Qinghai-Tibetan Plateau of China. In order to understand whether orogeny influenced the evolution of these species, and how genomes change under isolation, especially in subterranean habitats, we performed whole-genome sequencing and comparative analyses of three species in this genus, S. grahami, S. rhinocerous and S. anshuiensis. These species are surface-dwelling, semi-cave-dwelling and cave-restricted, respectively.ResultsThe assembled genome sizes of S. grahami, S. rhinocerous and S. anshuiensis are 1.75 Gb, 1.73 Gb and 1.68 Gb, respectively. Divergence time and population history analyses of these species reveal that their speciation and population dynamics are correlated with the different stages of uplifting of the Qinghai-Tibetan Plateau. We carried out comparative analyses of these genomes and found that many genetic changes, such as gene loss (e.g. opsin genes), pseudogenes (e.g. crystallin genes), mutations (e.g. melanogenesis-related genes), deletions (e.g. scale-related genes) and down-regulation (e.g. circadian rhythm pathway genes), are possibly associated with the regressive features (such as eye degeneration, albinism, rudimentary scales and lack of circadian rhythms), and that some gene expansion (e.g. taste-related transcription factor gene) may point to the constructive features (such as enhanced taste buds) which evolved in these cave fishes.ConclusionAs the first report on cavefish genomes among distinct species in Sinocyclocheilus, our work provides not only insights into genetic mechanisms of cave adaptation, but also represents a fundamental resource for a better understanding of cavefish biology.Electronic supplementary materialThe online version of this article (doi:10.1186/s12915-015-0223-4) contains supplementary material, which is available to authorized users.

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The nexus between RNA-binding proteins and their effectors

Valkov

Cheloufi

et al. 2022

Nat Rev Genet

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TBK1 Promote Bladder Cancer Cell Proliferation and Migration via Akt Signaling

Chen

Luo

et al. 2017

J. Cancer

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Bladder cancer is a challenging and fatal malignancy and the improvement in prognosis is limited over years. Deep understanding the mechanism of bladder cancer tumorigenesis and progression will help to discover novel and effective treatment strategies. In this study, we identify non-canonical IkB kinase TBK1 is up-regulated in bladder cancer tissue and cell lines. Knockdown of TBK1 markedly inhibits cell proliferation and migration. Inhibition of TBK1 kinase activity by BX795 significantly attenuates bladder cancer cell proliferation and migration. Mechanistic study shows that overexpression of TBK1 promoted the phosphorylation of Akt, whereas knockdown of TBK1 reverses this action. Taken together, our data suggest that TBK1 modulates the malignant behaviors of bladder cancer cell via Akt signaling, revealing new insights in discovering new therapy target for bladder cancer.

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Development and characterization of microsatellite markers from the transcriptome of Firmiana danxiaensis (Malvaceae s.l.)

Fan

Chen

et al. 2013

Appl Plant Sci

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• Premise of the study: Firmiana consists of 12–16 species, many of which are narrow endemics. Expressed sequence tag (EST)–simple sequence repeat (SSR) markers were developed and characterized for size polymorphism in four Firmiana species.• Methods and Results: A total of 102 EST-SSR primer pairs were designed based on the transcriptome sequences of F. danxiaensis; these were then characterized in four Firmiana species—F. danxiaensis, F. kwangsiensis, F. hainanensis, and F. simplex. In these four species, 17 primer pairs were successfully amplified, and 14 were polymorphic in at least one species. The number of alleles ranged from one to 13, and the observed and expected heterozygosities ranged from 0 to 1 and 0 to 0.925, respectively. The lowest level of polymorphism was observed in F. danxiaensis.• Conclusions: These polymorphic EST-SSR markers are valuable for conservation genetics studies in the endangered Firmiana species.

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TACC3 transcriptionally upregulates E2F1 to promote cell growth and confer sensitivity to cisplatin in bladder cancer

Lin

Wang

et al. 2018

Cell Death Dis

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Accumulating evidence has shown that transforming acidic coiled-coil 3 (TACC3) is deregulated in a broad spectrum of cancers. In the present study, we reported that TACC3 was markedly elevated in bladder cancer, especially in muscle-invasive bladder cancers (MIBCs). The upregulation of TACC3 was positively associated with tumor invasiveness, grade, T stage, and progression in patients with bladder cancer. Furthermore, a Kaplan–Meier survival analysis showed that patients with bladder cancer whose tumors had high TACC3 expression experienced a dismal prognosis compared with patients whose tumors had low TACC3 expression. Functional studies have found that TACC3 is a prerequisite for the development of malignant characteristics of bladder cancer cells, including cell proliferation and invasion. Moreover, TACC3 promoted G1/S transition, which was mediated via activation of the transcription of E2F1, eventually enhancing cell proliferation. Notably, the overexpression of TACC3 or E2F1 indicates a high sensitivity to cisplatin. Taken together, these findings define a tumor-supportive role for TACC3, which may also serve as a prognostic and therapeutic indicator in bladder cancers

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Shiyang He

The Sinocyclocheilus cavefish genome provides insights into cave adaptation

The nexus between RNA-binding proteins and their effectors

TBK1 Promote Bladder Cancer Cell Proliferation and Migration via Akt Signaling

Development and characterization of microsatellite markers from the transcriptome of Firmiana danxiaensis (Malvaceae s.l.)

TACC3 transcriptionally upregulates E2F1 to promote cell growth and confer sensitivity to cisplatin in bladder cancer

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