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Links from Protein

Items: 10

1.

transcriptional regulator, SarA/Rot family

This entry represents transcriptional regulatory proteins in Staphylococcal species including SarA and Rot [1-5]. Sar is a global regulator with both positive and negative effects that controls expression of several virulence factors and biofilm formation process in a cell density-dependent manner. Rot plays a key role in regulating S. aureus virulence through activation or repression of promoters that control expression of a large number of critical virulence factors [5]. Paper describing PDB structure 1hsj. [1]. 11381122. Crystal structure of the SarR protein from Staphylococcus aureus. Liu Y, Manna A, Li R, Martin WE, Murphy RC, Cheung AL, Zhang G;. Proc Natl Acad Sci U S A. 2001;98:6877-6882. Paper describing PDB structure 1p4x. [2]. 12837797. Crystal structure of the SarS protein from Staphylococcus aureus. Li R, Manna AC, Dai S, Cheung AL, Zhang G;. J Bacteriol. 2003;185:4219-4225. Paper describing PDB structure 2fnp. [3]. 16455801. Structural and function analyses of the global regulatory protein SarA from Staphylococcus aureus. Liu Y, Manna AC, Pan CH, Kriksunov IA, Thiel DJ, Cheung AL, Zhang G;. Proc Natl Acad Sci U S A. 2006;103:2392-2397. Paper describing PDB structure 4q77. [4]. 25195759. Structure of Rot, a global regulator of virulence genes in Staphylococcus aureus. Zhu Y, Fan X, Zhang X, Jiang X, Niu L, Teng M, Li X;. Acta Crystallogr D Biol Crystallogr. 2014;70:2467-2476. Paper describing PDB structure 4rbr. [5]. 25331435. Structure-based functional characterization of repressor of toxin (Rot), a central regulator of Staphylococcus aureus virulence. Killikelly A, Benson MA, Ohneck EA, Sampson JM, Jakoncic . TRUNCATED at 1650 bytes (from Pfam)

Date:
2024-10-28
Family Accession:
NF047172.1
Method:
HMM
2.

winged helix DNA-binding protein

GO Terms:
Molecular Function:
DNA-binding transcription factor activity (GO:0003700)
Biological Process:
regulation of DNA-templated transcription (GO:0006355)
Date:
2024-08-14
Family Accession:
NF024854.5
Method:
HMM
3.

MarR family transcriptional regulator

The Mar proteins are involved in the multiple antibiotic resistance, a non-specific resistance system. The expression of the mar operon is controlled by a repressor, MarR. A large number of compounds induce transcription of the mar operon. This is thought to be due to the compound binding to MarR, and the resulting complex stops MarR binding to the DNA. With the MarR repression lost, transcription of the operon proceeds [1]. The structure of MarR is known [2] and shows MarR as a dimer with each subunit containing a winged-helix DNA binding motif. [1]. 9068629. The Salmonella typhimurium mar locus: molecular and genetic analyses and assessment of its role in virulence. Sulavik MC, Dazer M, Miller PF;. J Bacteriol 1997;179:1857-1866. [2]. 11473263. The crystal structure of MarR, a regulator of multiple antibiotic resistance, at 2.3 A resolution. Alekshun MN, Levy SB, Mealy TR, Seaton BA, Head JF;. Nat Struct Biol 2001;8:710-714. (from Pfam)

GO Terms:
Molecular Function:
DNA-binding transcription factor activity (GO:0003700)
Biological Process:
regulation of DNA-templated transcription (GO:0006355)
Date:
2024-10-16
Family Accession:
NF024212.5
Method:
HMM
4.

MarR family transcriptional regulator

The Mar proteins are involved in the multiple antibiotic resistance, a non-specific resistance system. The expression of the mar operon is controlled by a repressor, MarR. A large number of compounds induce transcription of the mar operon. This is thought to be due to the compound binding to MarR, and the resulting complex stops MarR binding to the DNA. With the MarR repression lost, transcription of the operon proceeds [1]. The structure of MarR is known [2] and shows MarR as a dimer with each subunit containing a winged-helix DNA binding motif. [1]. 9068629. The Salmonella typhimurium mar locus: molecular and genetic analyses and assessment of its role in virulence. Sulavik MC, Dazer M, Miller PF;. J Bacteriol 1997;179:1857-1866. [2]. 11473263. The crystal structure of MarR, a regulator of multiple antibiotic resistance, at 2.3 A resolution. Alekshun MN, Levy SB, Mealy TR, Seaton BA, Head JF;. Nat Struct Biol 2001;8:710-714. (from Pfam)

GO Terms:
Molecular Function:
DNA-binding transcription factor activity (GO:0003700)
Biological Process:
regulation of DNA-templated transcription (GO:0006355)
Date:
2024-10-16
Family Accession:
NF013231.5
Method:
HMM
5.

winged helix-turn-helix transcriptional regulator

HxlR, a member of this family, is a DNA-binding protein that acts as a positive regulator of the formaldehyde-inducible hxlAB operon in Bacillus subtilis. [1]. 15978081. HxlR, a member of the DUF24 protein family, is a DNA-binding protein that acts as a positive regulator of the formaldehyde-inducible hxlAB operon in Bacillus subtilis. Yurimoto H, Hirai R, Matsuno N, Yasueda H, Kato N, Sakai Y;. Mol Microbiol 2005;57:511-519. (from Pfam)

Date:
2024-10-16
Family Accession:
NF013777.5
Method:
HMM
6.
new record, indexing in progress
Family Accession:
7.
new record, indexing in progress
Family Accession:
8.
new record, indexing in progress
Family Accession:
9.
new record, indexing in progress
Family Accession:
10.

MarR family winged helix-turn-helix transcriptional regulator

MarR family winged helix-turn-helix (wHTH) transcriptional regulator similar to Bacillus thuringiensis DNA-binding transcriptional repressor TubR, a DNA-binding protein that is part of the type III plasmid partition system used to ensure correct segregation of the pBtoxis plasmid

Date:
2024-03-29
Family Accession:
11448790
Method:
Sparcle
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