Tso-Ning Li scite author profile

Tso-Ning Li

2Publications

56Citation Statements Received

101Citation Statements Given

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National Chung Hsing University

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XC1028 from Xanthomonas campestris adopts a PilZ domain‐like structure without a c‐di‐GMP switch

Chin

Liu

et al. 2009

Proteins

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The crystal structure of XC1028 from Xanthomonas campestris has been determined to a resolution of 2.15 A using the multiple anomalous dispersion approach. It bears significant sequence identity and similarity values of 64.10% and 70.09%, respectively, with PA2960, a protein indispensable for type IV pilus-mediated twitching motility, after which the PilZ motif was first named. However, both XC1028 and PA2960 lack detectable c-di-GMP binding capability. Although XC1028 adopts a structure comprising a five-stranded beta-barrel core similar to other canonical PilZ domains with robust c-di-GMP binding ability, considerable differences are observed in the N-terminal motif; XC1028 assumes a compact five-stranded beta-barrel without an extra long N-terminal motif, whereas other canonical PilZ domains contain a long N-terminal sequence embedded with an essential "c-di-GMP switch" motif. In addition, a beta-strand (beta1) in the N-terminal motif, running in exactly opposite polarity to that of XC1028, is found inserted into the parallel beta3/beta1' strands, forming a completely antiparallel beta4 downward arrow beta3 upward arrow beta1 downward arrow beta1' upward arrow sheet in the canonical PilZ domains. Such dramatic structural differences at the N-terminus may account for the diminished c-di-GMP binding capability of XC1028, and suggest that interactions with additional proteins are necessary to bind c-di-GMP for type IV fimbriae assembly.

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A Novel Tetrameric PilZ Domain Structure from Xanthomonads

Chin

Fung

et al. 2011

PLoS ONE

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PilZ domain is one of the key receptors for the newly discovered secondary messenger molecule cyclic di-GMP (c-di-GMP). To date, several monomeric PilZ domain proteins have been identified. Some exhibit strong c-di-GMP binding activity, while others have barely detectable c-di-GMP binding activity and require an accessory protein such as FimX to indirectly respond to the c-di-GMP signal. We now report a novel tetrameric PilZ domain structure of XCC6012 from the plant pathogen Xanthomonas campestris pv. campestris (Xcc). It is one of the four PilZ domain proteins essential for Xcc pathogenicity. Although the monomer adopts a structure similar to those of the PilZ domains with very weak c-di-GMP binding activity, it is nevertheless interrupted in the middle by two extra long helices. Four XCC6012 proteins are thus self-assembled into a tetramer via the extra heptad repeat α3 helices to form a parallel four-stranded coiled-coil, which is further enclosed by two sets of inclined α2 and α4 helices. We further generated a series of XCC6012 variants and measured the unfolding temperatures and oligomeric states in order to investigate the nature of this novel tetramer. Discovery of this new PilZ domain architecture increases the complexity of c-di-GMP-mediated regulation.

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Tso-Ning Li

XC1028 from Xanthomonas campestris adopts a PilZ domain‐like structure without a c‐di‐GMP switch

A Novel Tetrameric PilZ Domain Structure from Xanthomonads

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