Identification of a morphogene required for tapered filament termini in filamentous cyanobacteria.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Gabriel A Parrett, Peyton D Brones, Garrett M Jenkins, Savanna M Mounts, Alicia Nguyen, Douglas D Risser
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引用次数: 0

Abstract

Although the photosynthetic cyanobacteria are monophyletic, they exhibit substantial morphological diversity across species, and even within an individual species due to phenotypic plasticity in response to life cycles and environmental signals. This is particularly prominent among the multicellular filamentous cyanobacteria. One example of this is the appearance of tapering at the filament termini. However, the morphogenes controlling this phenotype and the adaptive function of this morphology are not well defined. Here, using the model filamentous cyanobacterium Nostoc punctiforme ATCC29133 (PCC73102), we identify tftA, a morphogene required for the development of tapered filament termini. The tftA gene is specifically expressed in developing hormogonia, motile trichomes where the tapered filament morphology is observed, and encodes a protein containing putative amidase_3 and glucosaminidase domains, implying a function in peptidoglycan hydrolysis. Deletion of tftA abolished filament tapering inidcating that TftA plays a role in remodelling the cell wall to produce tapered filaments. Genomic conservation of tftA specifically in filamentous cyanobacteria indicates this is likely to be a conserved mechanism among these organisms. Finally, motility assays indicate that filaments with tapered termini migrate more efficiently through dense substratum, providing a plausible biological role for this morphology.

丝状蓝藻中锥形丝端所需形态基因的鉴定。
虽然光合蓝藻是单系的,但由于响应生命周期和环境信号的表型可塑性,它们在物种之间甚至在单个物种内表现出实质性的形态多样性。这在多细胞丝状蓝藻中尤为突出。这方面的一个例子是在细丝末端逐渐变细的外观。然而,控制这种表型的形态基因和这种形态的适应功能并没有很好地定义。在这里,我们使用模型丝状蓝藻Nostoc punctiformme ATCC29133 (PCC73102),鉴定了tftA,这是一个形成锥形丝端所需的形态基因。tftA基因在毛状体发育中特异表达,在毛状体运动中观察到锥形细丝形态,并编码一种含有推测的酰胺酶e_3和氨基葡萄糖酶结构域的蛋白质,暗示其在肽聚糖水解中起作用。tftA的缺失消除了丝的变细,这表明tftA在细胞壁重塑中起作用,产生变细的丝。tftA在丝状蓝藻中的基因组保护表明,这可能是这些生物中的一种保守机制。最后,运动分析表明,末端变细的细丝在密集的基质中更有效地迁移,为这种形态提供了合理的生物学作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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