Shengliang Ni scite author profile

Shengliang Ni

3Publications

1Citation Statement Received

42Citation Statements Given

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The University of Tokyo, Ube Frontier University

Publications

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DNA conserved in diverse animals since the Precambrian controls genes for embryonic development

Frith

2023

Preprint

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How does one fertilized cell develop into an exquisitely complex animal? Complex development evolved via simple development, and retains ancient components: genes that control development in similar ways in distantly-related animals, like humans and flies. Expression of these genes is controlled by DNA segments near the genes, but these segments seem less widely conserved. Arguably, just four have been found conserved between vertebrates and non-deuterostome animals. Here are reported twenty-five regulatory DNA segments conserved across bilaterian animals, of which seven are conserved in cnidaria (coral and sea anemone). They control developmental genes (e.g. Nr2f, Ptch, Rfx1/3, Sall, Smad6, Sp5, Tbx2/3), including six homeobox genes: Gsx, Hmx, Meis, Msx, Six1/2, and Zfhx3/4. The segments contain perfectly or near-perfectly conserved CCAAT boxes, E-boxes, and other sequences recognized by regulatory proteins. More such DNA conservation will surely be found soon, as more genomes are published and sequence comparison is optimized. This reveals a control system for animal development conserved since the Precambrian.

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An immune-suppressing protein in human endogenous retroviruses

Zhang

Frith

2023

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Motivation Retroviruses are important contributors to disease and evolution in vertebrates. Sometimes, retrovirus DNA is heritably inserted in a vertebrate genome: an endogenous retrovirus (ERV). Vertebrate genomes have many such virus-derived fragments, usually with mutations disabling their original functions. Results Some primate ERVs appear to encode an overlooked protein. This protein is homologous to protein MC132 from Molluscum contagiosum virus, which is a human poxvirus, not a retrovirus. MC132 suppresses the immune system by targeting NF-κB, and it had no known homologs until now. The ERV homologs of MC132 in the human genome are mostly disrupted by mutations, but there is an intact copy on chromosome 4. We found homologs of MC132 in ERVs of apes, monkeys, and bushbaby, but not tarsiers, lemurs or non-primates. This suggests that some primate retroviruses had, or have, an extra immune-suppressing protein, which underwent horizontal genetic transfer between unrelated viruses.

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An immune-suppressing protein in human endogenous retroviruses

Zhang

Frith

2022

Preprint

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Retroviruses are important contributors to disease and evolution in vertebrates. Sometimes, retrovirus DNA is heritably inserted in a vertebrate genome: an endogenous retrovirus (ERV). Vertebrate genomes have many such virus-derived fragments, usually with mutations disabling their original functions. Some primate ERVs appear to encode an overlooked protein. This protein has significant homology to protein MC132 from Molluscum contagiosum virus, which is a human poxvirus, not a retrovirus. MC132 suppresses the immune system by targeting NF-κB, and it had no known homologs until now. The ERV homologs of MC132 in the human genome are mostly disrupted by mutations, but there is an intact copy on chromosome 4. We found homologs of MC132 in ERVs of apes, monkeys, and bushbaby, but not tarsiers, lemurs or non-primates. This suggests that some primate retroviruses had, or have, an extra immune-suppressing protein, which underwent horizontal genetic transfer between unrelated viruses.

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Shengliang Ni

DNA conserved in diverse animals since the Precambrian controls genes for embryonic development

An immune-suppressing protein in human endogenous retroviruses

An immune-suppressing protein in human endogenous retroviruses

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