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1. Chemoreceptors in Sinorhizobium meliloti require minimal pentapeptide tethers to provide adaptational assistance

   https://doi.org/10.1111/mmi.15282  

   Agbekudzi, Alfred; Scharf, Birgit_E (May 2024, Molecular Microbiology)

   Abstract Sensory adaptation in bacterial chemotaxis is mediated by posttranslational modifications of methyl‐accepting chemotaxis proteins (MCPs). InEscherichia coli, the adaptation proteins CheR and CheB tether to a conserved C‐terminal receptor pentapeptide. Here,we investigated the function of the pentapeptide motif (N/D)WE(E/N)F inSinorhizobium melilotichemotaxis. Isothermal titration calorimetry revealed stronger affinity of the pentapeptides to CheR and activated CheB relative to unmodified CheB. Strains with mutations of the conserved tryptophan in one or all four MCP pentapeptides resulted in a significant decrease or loss of chemotaxis to glycine betaine, lysine, and acetate, chemoattractants sensed by pentapeptide‐bearing McpX and pentapeptide‐lacking McpU and McpV, respectively. Importantly, we discovered that the pentapeptide mediates chemotaxis when fused to the C‐terminus of pentapeptide‐lacking chemoreceptors via a flexible linker. We propose that adaptational assistance and a threshold number of available sites enable the efficient docking of adaptation proteins to the chemosensory array. Altogether, these results demonstrate thatS. melilotieffectively utilizes a pentapeptide‐dependent adaptation system with a minimal number of tethering units to assist pentapeptide‐lacking chemoreceptors and hypothesize that the higher abundance of CheR and CheB inS. meliloticompared toE. coliallows for ample recruitment of adaptation proteins to the chemosensory array. 

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2. Ubiquitin-Mimicking Peptides Transfer Differentiates by E1 and E2 Enzymes

   https://doi.org/10.1155/2018/6062520  

   Jin, Bo; Wang, Jiayue; Liu, Xiangnan; Fang, Shuai; Jiang, Bo; Hofmann, Kay; Yin, Jun; Zhao, Bo (August 2018, BioMed Research International)

   Ubiquitin and ubiquitin like proteins (UBLs) play key roles in eukaryotes. These proteins are attached to their target proteins through an E1-E2-E3 cascade and modify the functions of these proteins. Since the discovery of ubiquitin, several UBLs have been identified, including Nedd8, SUMO, ISG15, and Atg8. Ubiquitin and UBLs share a similar three-dimensional structure: β -grasp fold and an X-X-[R/A/E/K]-X-X-[G/X]-G motif at the C-terminus. We have previously reported that ubiquitin, Nedd8, and SUMO mimicking peptides which all contain the conserved motif X-X-[R/A/E/K]-X-X-[G/X]-G still retained their reactivity toward their corresponding E1, E2, and E3 enzymes. In our current study, we investigated whether such C-terminal peptides could still be transferred onto related pathway enzymes to probe the function of these enzymes when they are fused with a protein. By bioinformatic search of protein databases, we selected eight proteins carrying the X-X-[R/A/E/K]-X-X-[G/X]-G motif at the C-terminus of the β -grasp fold. We synthesized the C-terminal sequences of these candidates as short peptides and found that three of them showed significant reactivity with the ubiquitin E1 enzyme Ube1. We next fused the three reactive short peptides to three different protein frames, including their respective native protein frames, a ubiquitin frame and a peptidyl carrier protein (PCP) frame, and measured the reactivities of these peptide-fused proteins with Ube1. Peptide-fused proteins on ubiquitin and PCP frames showed obvious reactivity with Ube1. However, when we measured E2 UbcH7 transfer, we found that the PCP-peptide fusions lost their reactivity with UbcH7. Taken together, these results suggested that the recognition of E2 enzymes with peptide-fused proteins depended not only on the C-terminal sequences of the ubiquitin-mimicking peptides, but also on the overall structures of the protein frames. 

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3. Effects of terminal tripeptide units on mechanical properties of collagen triple helices

   https://doi.org/10.1016/j.eml.2023.102075  

   Masrouri, Milad; Qin, Zhao (November 2023, Extreme Mechanics Letters)

   Collagen, a vital protein that provides strength to various body tissues, has a triple helix structure containing three polypeptide chains. The chains are composed mostly of a tripeptide of glycine (G), proline (P), and hydroxyproline (O). Using molecular dynamics simulations and theoretical analysis, the study examines the mechanical response of collagen triple helix structures, made up of three different tripeptide units, when subjected to different fracture loading modes. The results show that collagen with GPO tripeptide units at their C-terminal are mechanically stronger than the POG and OGP units with a single amino-acid frame shift. Our work shows that the N-terminal has less effect on collagen fracture than the C-terminal. The differences in mechanical response are explained by the heterogenous rigidity of the amino acid backbone and the resulting shear lag effect near the terminal. The findings have potential applications in developing tough synthetic collagen for building materials and may stimulate further studies on the connection between terminal repeats and the mechanical-thermal behavior of other structural proteins such as silk, elastin, fibrin, and keratin. 

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4. Direct Zinc Finger Protein Persulfidation by H ₂ S Is Facilitated by Zn ²⁺

   https://doi.org/10.1002/anie.201900823  

   Lange, Mike; Ok, Kiwon; Shimberg, Geoffrey D.; Bursac, Biljana; Markó, Lajos; Ivanović‐Burmazović, Ivana; Michel, Sarah L. J.; Filipovic, Milos R. (May 2019, Angewandte Chemie International Edition)

   Abstract H₂S is a gaseous signaling molecule that modifies cysteine residues in proteins to form persulfides (P‐SSH). One family of proteins modified by H₂S are zinc finger (ZF) proteins, which contain multiple zinc‐coordinating cysteine residues. Herein, we report the reactivity of H₂S with a ZF protein called tristetraprolin (TTP). Rapid persulfidation leading to complete thiol oxidation of TTP mediated by H₂S was observed by low‐temperature ESI‐MS and fluorescence spectroscopy. Persulfidation of TTP required O₂ , which reacts with H₂S to form superoxide, as detected by ESI‐MS, a hydroethidine fluorescence assay, and EPR spin trapping. H₂S was observed to inhibit TTP function (binding to TNFα mRNA) by an in vitro fluorescence anisotropy assay and to modulate TNFα in vivo. H₂S was unreactive towards TTP when the protein was bound to RNA, thus suggesting a protective effect of RNA. 

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5. Selective copper-mediated cross-coupling of pyroglutamate post-translational modifications

   https://doi.org/10.26434/chemrxiv-2024-jkvxr  

   Ding, Yuxuan; Jiang, Yuecheng; Serrat, Nicolas; Ball, Zachary (May 2024, ChemRxiv)

   Pyroglutamate is a cyclic N-terminal posttranslational modifica-tion that occurs in both proteins and peptide hormones. The prevalence and biological roles of pyroglutamate are little under-stood, in part due to limited tools to identify, quantify, and ma-nipulate its pyrrolidinone structure. Selective modification of pyroglutamate residues in complex polypeptides may provide unique tools to better understand its biological roles, and to al-low late-stage diversification of biologically active pyrogluta-mate-containing sequences. This work describes a copper-catalyzed N–H cross-coupling of unprotected peptides that is selective for N-terminal pyroglutamate residues. The reaction is operationally simple under mild conditions, and tolerates almost all canonical residues. Mechanistic studies point to a key role for a multidentate copper-binding mode of the extended polypeptide structure in delivering the observed reactivity. The reaction al-lows direct labeling and identification of a pyroglutamate hormone present in porcine intestinal extracts. 

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