Justin J. Zik scite author profile

The synthesis of peptidoglycan (PG) in bacteria is a crucial process controlling cell shape and vitality. In contrast to bacteria such as Escherichia coli that grow by dispersed lateral insertion of PG, little is known of the processes that direct polar PG synthesis in other bacteria such as the Rhizobiales. To better understand polar growth in the Rhizobiales Agrobacterium tumefaciens, we first surveyed its genome to identify homologs of (~70) well-known PG synthesis components. Since most of the canonical cell elongation components are absent from A. tumefaciens, we made fluorescent protein fusions to other putative PG synthesis components to assay their subcellular localization patterns. The cell division scaffolds FtsZ and FtsA, PBP1a, and a Rhizobiales- and Rhodobacterales-specific l,d-transpeptidase (LDT) all associate with the elongating cell pole. All four proteins also localize to the septum during cell division. Examination of the dimensions of growing cells revealed that new cell compartments gradually increase in width as they grow in length. This increase in cell width is coincident with an expanded region of LDT-mediated PG synthesis activity, as measured directly through incorporation of exogenous d-amino acids. Thus, unipolar growth in the Rhizobiales is surprisingly dynamic and represents a significant departure from the canonical growth mechanism of E. coli and other well-studied bacilli.

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Cell cycle-dependent adaptor complex for ClpXP-mediated proteolysis directly integrates phosphorylation and second messenger signals

Smith

Joshi

Zik

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Significance Controlled degradation of specific proteins is used by all organisms to change cell behavior in response to internal or external cues. Because ATP-dependent proteases, such as ClpXP, have a broad range of targets, accessory proteins called adaptors are often necessary for selective substrate proteolysis. Here we show that three proteins work together as a multicomponent adaptor to stimulate the degradation of a key regulatory protein, CtrA, in Caulobacter crescentus . The adaptor is only functional when one of the components, CpdR, is unphosphorylated and when another component, PopA, is bound to the signaling molecule cyclic diguanylate. These features ensure that CtrA is only proteolyzed during a specific window in the Caulobacter cell-division cycle.

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Caulobacter lipid A is conditionally dispensable in the absence of fur and in the presence of anionic sphingolipids

et al. 2022

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Decoding capsule synthesis in Streptococcus pneumoniae

Nakamoto

Chun

et al. 2020

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Streptococcus pneumoniae synthesizes >100 types of capsular polysaccharides (CPSs). While the diversity of the enzymes and transporters involved is enormous, it is not limitless. In this review, we summarized the recent progress on elucidating the structure–function relationships of CPSs, the mechanisms by which they are synthesized, how their synthesis is regulated, the host immune response against them and the development of novel pneumococcal vaccines. Based on the genetic and structural information available, we generated provisional models of the CPS repeating units that remain unsolved. In addition, to facilitate cross-species comparisons and assignment of glycosyltransferases, we illustrated the biosynthetic pathways of the known CPSs in a standardized format. Studying the intricate steps of pneumococcal CPS assembly promises to provide novel insights for drug and vaccine development as well as improve our understanding of related pathways in other species.

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Cell Cycle Signal Transduction and Proteolysis in Caulobacter

Zik

Ryan

2022

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Justin J. Zik

Peptidoglycan Synthesis Machinery in Agrobacterium tumefaciens During Unipolar Growth and Cell Division

Cell cycle-dependent adaptor complex for ClpXP-mediated proteolysis directly integrates phosphorylation and second messenger signals

Caulobacter lipid A is conditionally dispensable in the absence of fur and in the presence of anionic sphingolipids

Decoding capsule synthesis in Streptococcus pneumoniae

Cell Cycle Signal Transduction and Proteolysis in Caulobacter

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