Long‐Long Yang scite author profile

Long‐Long Yang

2Publications

18Citation Statements Received

164Citation Statements Given

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Henan Normal University

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Impact of LTR-Retrotransposons on Genome Structure, Evolution, and Function in Curcurbitaceae Species

She

Yang

et al. 2022

IJMS

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Long terminal repeat (LTR)-retrotransposons (LTR-RTs) comprise a major portion of many plant genomes and may exert a profound impact on genome structure, function, and evolution. Although many studies have focused on these elements in an individual species, their dynamics on a family level remains elusive. Here, we investigated the abundance, evolutionary dynamics, and impact on associated genes of LTR-RTs in 16 species in an economically important plant family, Cucurbitaceae. Results showed that full-length LTR-RT numbers and LTR-RT content varied greatly among different species, and they were highly correlated with genome size. Most of the full-length LTR-RTs were amplified after the speciation event, reflecting the ongoing rapid evolution of these genomes. LTR-RTs highly contributed to genome size variation via species-specific distinct proliferations. The Angela and Tekay lineages with a greater evolutionary age were amplified in Trichosanthes anguina, whereas a recent activity burst of Reina and another ancient round of Tekay activity burst were examined in Sechium edule. In addition, Tekay and Retand lineages belonging to the Gypsy superfamily underwent a recent burst in Gynostemma pentaphyllum. Detailed investigation of genes with intronic and promoter LTR-RT insertion showed diverse functions, but the term of metabolism was enriched in most species. Further gene expression analysis in G.pentaphyllum revealed that the LTR-RTs within introns suppress the corresponding gene expression, whereas the LTR-RTs within promoters exert a complex influence on the downstream gene expression, with the main function of promoting gene expression. This study provides novel insights into the organization, evolution, and function of LTR-RTs in Cucurbitaceae genomes.

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Landscape and evolutionary dynamics of Helitron transposons in plant genomes as well as construction of online database HelDB

Zhang

Yang

et al. 2022

J of Sytematics Evolution

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Helitron transposons play an important role in host genome evolution due to their ability to capture genes and regulatory elements. In this study, we developed a pipeline to identify and annotate Helitrons systematically from 358 plant and 178 animal high‐quality genomes. All these data were organized into HelDB, a database where Helitrons can be explored with a user‐friendly Web interface and related software. Based on these data, further analysis showed that the number or the cumulative length of Helitrons is positively correlated with genome size. Helitrons had experienced two expansion periods in plants, with the first occurring 20–30 Ma and peaking at approximately 24 Ma. The second expansion occurred in the last 4 million years. The expansions might be due to stimulation of paleogeographic environment. Detailed investigation of gene capture by Helitrons in Brassicaceae and Solanaceae plants showed that the captured genes showed diverse functions. Interestingly, metal ion binding function was enriched in these captured genes in most species. This phenomenon might be due to the need for binding of divalent metal ions to the Rep domain required for Helitron transposition. This study improves our knowledge of the landscape and evolution of Helitron transposons in plants and paves a way for further functional studies of this kind of transposable element.

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Long‐Long Yang

Impact of LTR-Retrotransposons on Genome Structure, Evolution, and Function in Curcurbitaceae Species

Landscape and evolutionary dynamics of Helitron transposons in plant genomes as well as construction of online database HelDB

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