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钟鸣 (2022-07-17 02:20):
#paper doi:10.1128/JB.00933-10 J Bacteriol, 2011, Adhesive Activity of the Haemophilus Cryptic Genospecies Cha Autotransporter Is Modulated by Variation in Tandem Peptide Repeats 嗜血杆菌隐匿基因种(当时被认为是流感嗜血杆菌的一个型,现在已被命名为昆蒂尼嗜血杆菌)定植于女性生殖道,分娩时可感染胎儿并引发临床症状。Cha是存在于该物种中的保守的基因,编码三聚体自转运黏附素(TAA),促进该菌定植。TAA家族高度模块化,由N端信号肽、中间的乘客区和C端的外膜区组成。N端信号肽帮助TAA转运到周质区,在周质区,C末端三聚化并插入外膜,从而促进中间乘客结构域暴露于膜外,行使粘附功能。作者此前发现不同菌株间Cha基因长度略有不同,且Cha基因内部有84bp片段重复,他们猜想该片段的重复次数导致Cha基因长度不同,于是他们在不同菌株间使用South Blot验证了这一猜想。与此同时,他们发现拥有不同长度Cha的菌株,粘附效率也不同。他们猜想Cha蛋白的长度可能与粘附效率有关。于是作者分离了不同Cha长度的突变体,这些突变体重的84bp片段重复0次到100次不等。细胞粘附实验表明,84bp片段重复次数越多,粘附效率就越低。为了明确粘附效率的改变是否因Cha表达效率而变化,他们使用qPCR检查了不同突变体间Cha的mRNA含量,结果表明没有差异,这说明Cha的粘附效率不是蛋白丰度介导的,而是蛋白结构介导的。 此时,作者使用电镜观察了不同Cha长度的菌株的Cha蛋白形态,他们发现84bp片段重复数越多,则Cha越长,这间接证明了Cha结构变化影响细菌粘附效率。 接下来,为了探索Cha基因发挥粘附功能的结构域,作者对Cha基因做了不同长度的截短,构建了另一批突变株。对这些突变株的粘附效率进行测试,他们发现Cha的N端400aa的区域是Cha发挥粘附作用的充要条件,而84bp重复片段对Cha的粘附不是必须的。(注意,在这里测试粘附效率的方法是管沉降实验,即观察细菌在液体培养基中培养多长时间后沉底。因为有研究表明细菌的黏附素不仅介导细菌-宿主的粘附,也介导细菌-细菌间的粘附。) 最后,作者想知道Cha介导细菌-细菌粘附的机制具体是如何实现的,是不同菌株间Cha蛋白相互结合,还是Cha蛋白与另一个细菌的另一个蛋白结合?为此,他们分别测试了低粘附率菌株和高低粘附率菌株共培养这两种情况下的菌落聚集情况(菌落聚集也是本文用用于测量细菌间粘附能力的实验),结果表明Cha基因是自缔合的。 本研究通过一系列具有不同长度Cha基因的突变体,证明了84bp片段的重复数导致Cha基因长度不同,进而导致细菌粘附能力不同,且Cha越长,粘附能力越差。
IF:2.700Q3 Journal of bacteriology, 2011-Jan. DOI: 10.1128/JB.00933-10 PMID: 21037000
Abstract:
The Haemophilus cryptic genospecies is an important cause of maternal genital tract and neonatal systemic infections and initiates infection by colonizing the genital or respiratory epithelium. In recent work, we … >>>
The Haemophilus cryptic genospecies is an important cause of maternal genital tract and neonatal systemic infections and initiates infection by colonizing the genital or respiratory epithelium. In recent work, we identified a unique Haemophilus cryptic genospecies protein called Cha, which mediates efficient adherence to genital and respiratory epithelia. The Cha adhesin belongs to the trimeric autotransporter family and contains an N-terminal signal peptide, an internal passenger domain that harbors adhesive activity, and a C-terminal membrane anchor domain. The passenger domain in Cha contains clusters of YadA-like head domains and neck motifs as well as a series of tandem 28-amino-acid peptide repeats. In the current study, we report that variation in peptide repeat number gradually modulates Cha adhesive activity, associated with a direct effect on the length of Cha fibers on the bacterial cell surface. The N-terminal 404 residues of the Cha passenger domain mediate binding to host cells and also facilitate bacterial aggregation through intermolecular Cha-Cha binding. As the tandem peptide repeats expand, the Cha fiber becomes longer and Cha adherence activity decreases. The expansion and contraction of peptide repeats represent a novel mechanism for modulating adhesive capacity, potentially balancing the need of the organism to colonize the genital and respiratory tracts with the ability to attach to alternative substrates, disperse within the host, or evade the host immune system. <<<
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