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      Crystal structure of the nonclassical cadherin‐17 N‐terminus and implications for its adhesive binding mechanism

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      https://www.riss.kr/link?id=O105856821

      • 저자
      • 발행기관
      • 학술지명
      • 권호사항
      • 발행연도

        2021년

      • 작성언어

        eng

      • Online ISSN

        2053-230X

      • 등재정보

        SCIE;SCOPUS

      • 자료형태

        학술저널

      • 원정보자원

        Acta crystallographica.Section F.Structural biology communications

      • 수록면

        85-94   [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]

      • 구독기관
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        • 충남대학교 중앙도서관  
        • 한양대학교 백남학술정보관  
        • 이화여자대학교 중앙도서관  
        • 고려대학교 도서관  
      • ⓒ COPYRIGHT THE BRITISH LIBRARY BOARD: ALL RIGHT RESERVED

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      다국어 초록 (Multilingual Abstract)

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      The cadherin superfamily of calcium‐dependent cell‐adhesion proteins has over 100 members in the human genome. All members of the superfamily feature at least a pair of extracellular cadherin (EC) repeats with calcium‐binding sites in the EC linker region. The EC repeats across family members form distinct complexes that mediate cellular adhesion. For instance, classical cadherins (five EC repeats) strand‐swap their N‐termini and exchange tryptophan residues in EC1, while the clustered protocadherins (six EC repeats) use an extended antiparallel `forearm handshake' involving repeats EC1–EC4. The 7D‐cadherins, cadherin‐16 (CDH16) and cadherin‐17 (CDH17), are the most similar to classical cadherins and have seven EC repeats, two of which are likely to have arisen from gene duplication of EC1–2 from a classical ancestor. However, CDH16 and CDH17 lack the EC1 tryptophan residue used by classical cadherins to mediate adhesion. The structure of human CDH17 EC1–2 presented here reveals features that are not seen in classical cadherins and that are incompatible with the EC1 strand‐swap mechanism for adhesion. Analyses of crystal contacts, predicted glycosylation and disease‐related mutations are presented along with sequence alignments suggesting that the novel features in the CDH17 EC1–2 structure are well conserved. These results hint at distinct adhesive properties for 7D‐cadherins.
      Cadherin‐17, a 7D‐cadherin, has N‐terminal extracellular cadherin (EC) repeats similar to those of classical cadherins but with several key differences that are relevant to its biological function. The structure presented here demonstrates that cadherin‐17 is incapable of forming the EC1 tryptophan‐mediated strand‐swap conformation that classical cadherins use to adhere cells together.
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      The cadherin superfamily of calcium‐dependent cell‐adhesion proteins has over 100 members in the human genome. All members of the superfamily feature at least a pair of extracellular cadherin (EC) repeats with calcium‐binding sites in the EC lin...

      The cadherin superfamily of calcium‐dependent cell‐adhesion proteins has over 100 members in the human genome. All members of the superfamily feature at least a pair of extracellular cadherin (EC) repeats with calcium‐binding sites in the EC linker region. The EC repeats across family members form distinct complexes that mediate cellular adhesion. For instance, classical cadherins (five EC repeats) strand‐swap their N‐termini and exchange tryptophan residues in EC1, while the clustered protocadherins (six EC repeats) use an extended antiparallel `forearm handshake' involving repeats EC1–EC4. The 7D‐cadherins, cadherin‐16 (CDH16) and cadherin‐17 (CDH17), are the most similar to classical cadherins and have seven EC repeats, two of which are likely to have arisen from gene duplication of EC1–2 from a classical ancestor. However, CDH16 and CDH17 lack the EC1 tryptophan residue used by classical cadherins to mediate adhesion. The structure of human CDH17 EC1–2 presented here reveals features that are not seen in classical cadherins and that are incompatible with the EC1 strand‐swap mechanism for adhesion. Analyses of crystal contacts, predicted glycosylation and disease‐related mutations are presented along with sequence alignments suggesting that the novel features in the CDH17 EC1–2 structure are well conserved. These results hint at distinct adhesive properties for 7D‐cadherins.
      Cadherin‐17, a 7D‐cadherin, has N‐terminal extracellular cadherin (EC) repeats similar to those of classical cadherins but with several key differences that are relevant to its biological function. The structure presented here demonstrates that cadherin‐17 is incapable of forming the EC1 tryptophan‐mediated strand‐swap conformation that classical cadherins use to adhere cells together.

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