 Bacterial Proteins
"Bacterial Proteins" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
Proteins found in any species of bacterium.
| Descriptor ID |
D001426
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| MeSH Number(s) |
D12.776.097
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| Concept/Terms |
Bacterial Proteins- Bacterial Proteins
- Bacterial Gene Product
- Bacterial Gene Products
- Bacterial Gene Protein
- Protein, Bacterial
- Bacterial Protein
- Gene Product, Bacterial
- Gene Products, Bacterial
- Gene Protein, Bacterial
- Gene Proteins, Bacterial
- Proteins, Bacterial
- Bacterial Gene Proteins
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Below are MeSH descriptors whose meaning is more general than "Bacterial Proteins".
Below are MeSH descriptors whose meaning is more specific than "Bacterial Proteins".
This graph shows the total number of publications written about "Bacterial Proteins" by people in this website by year, and whether "Bacterial Proteins" was a major or minor topic of these publications.
To see the data from this visualization as text, click here.
| Year | Major Topic | Minor Topic | Total |
|---|
| 1996 | 7 | 4 | 11 | | 1997 | 3 | 6 | 9 | | 1998 | 2 | 7 | 9 | | 1999 | 4 | 8 | 12 | | 2000 | 5 | 9 | 14 | | 2001 | 10 | 6 | 16 | | 2002 | 11 | 8 | 19 | | 2003 | 10 | 9 | 19 | | 2004 | 15 | 11 | 26 | | 2005 | 10 | 5 | 15 | | 2006 | 14 | 9 | 23 | | 2007 | 23 | 16 | 39 | | 2008 | 21 | 8 | 29 | | 2009 | 26 | 8 | 34 | | 2010 | 21 | 15 | 36 | | 2011 | 22 | 8 | 30 | | 2012 | 16 | 10 | 26 | | 2013 | 26 | 15 | 41 | | 2014 | 29 | 14 | 43 | | 2015 | 13 | 15 | 28 | | 2016 | 21 | 13 | 34 | | 2017 | 15 | 14 | 29 | | 2018 | 18 | 8 | 26 | | 2019 | 17 | 10 | 27 | | 2020 | 21 | 14 | 35 | | 2021 | 14 | 13 | 27 | | 2022 | 6 | 10 | 16 | | 2023 | 2 | 11 | 13 | | 2024 | 9 | 20 | 29 | | 2025 | 21 | 10 | 31 | | 2026 | 0 | 3 | 3 |
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Below are the most recent publications written about "Bacterial Proteins" by people in Profiles.
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Penaranda C, Brenner EP, Clatworthy AE, Cosimi LA, Ravi J, Hung DT. Genomic comparison and phenotypic characterization of Pseudomonas aeruginosa isolates across environmental and diverse clinical isolation sites. mSystems. 2026 Mar 24; 11(3):e0136225.
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Zang Z, Duncan OK, Sabonis D, Fedorova I, Shi Y, Miraj G, Le S, Deng J, Zhu Y, Cai Y, Zhang C, Arya G, Dixon SAH, Angus SP, Duerkop BA, Liang H, Pepin RH, Ve T, Bondy-Denomy J, Tamulaitiene G, Gerdt JP. Chemical inhibition of a bacterial immune system. Cell Host Microbe. 2026 Feb 11; 34(2):263-277.e11.
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Lai YH, Liu YH, Chen JY, Lee CT, Wang SY, Chiang-Ni C, Luo YH, Chi CY, Noda T, Lu SL, Tsai YS, Wu JJ, Tsai PJ. Endothelial NLRP3 inflammasome activation drives immunothrombosis in Streptococcus pyogenes infection. Life Sci. 2026 Mar 15; 389:124239.
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Morgan RT, Motta S, Gil-Iturbe E, Bhattacharjee B, Anwar MT, Di Muccio G, Romagnoli A, Mishra B, Ashraf KU, Bang I, Di Marino D, Lowary TL, Quick M, Petrou VI, Stowell MHB, Nygaard R, Mancia F. Mechanistic snapshots of lipid-linked sugar transfer. Nat Commun. 2025 Dec 06; 16(1):11044.
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Puffal J, Sparks IL, Brenner JR, Li X, Leszyk JD, Hayashi JM, Shaffer SA, Morita YS. Compartmentalized cell envelope biosynthesis in Mycobacterium tuberculosis. mBio. 2026 Jan 14; 17(1):e0268025.
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Detweiler CS, Alav I. Beyond antibiotic resistance: evidence for resistance-nodulation-division (RND) efflux pumps as virulence determinants. Microbiol Mol Biol Rev. 2025 Dec 18; 89(4):e0027824.
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Spradlin SF, Dickerson KA, Batey RT. Structural and functional clues challenge the hypothesis that the yjdF riboswitch is natively regulated through broad recognition of azaaromatic compounds. Nucleic Acids Res. 2025 Nov 13; 53(21).
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Nguyen A, Jenkins GM, Brones PD, Parrett GA, Hagen GM, Bono JM, Risser DD. A new family of bacterial actin-like proteins regulates cell morphology in a filamentous cyanobacterium. mSphere. 2025 Nov 25; 10(11):e0049925.
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Laviad-Shitrit S, Kon H, Bychenko Banyas D, Efrati Epchtien R, Bechor M, Lurie-Weinberger M, Ben-Zeev E, Frank S, Rakovitsky N, Schwartz D, Keren-Paz A, Carmeli Y. A single amino acid substitution in SED-2 ß-lactamase leads to increased inhibitor resistance and an extended substrate spectrum. Microbiol Spectr. 2025 Dec 02; 13(12):e0022425.
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Bagood MD, Marjanovic J, Jiang N, Chan H, Dokoshi T, Cavagnero KJ, Li F, Roso-Mares A, Almoughrabie S, Liu E, Pastar I, Tomic-Canic M, Horswill AR, Gallo RL. Staphylococcus aureus accessory gene regulator quorum-sensing system inhibits keratinocyte lipid enzymes and delays wound repair. J Clin Invest. 2025 Oct 15; 135(20).
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