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Tryptophan repressor

From Wikipedia, the free encyclopedia

Trp repressor protein
Ribbon diagram of the trpR protein
Identifiers
SymbolTrp_repressor
PfamPF01371
Pfam clanCL0123
InterProIPR000831
SCOP22wrp / SCOPe / SUPFAM
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary
Trp operon repressor
Identifiers
OrganismEscherichia coli
SymboltrpR
Entrez948917
RefSeq (Prot)NP_418810
UniProtP0A881
Other data
Chromosomegenome: 4.63 - 4.63 Mb
Search for
StructuresSwiss-model
DomainsInterPro

Tryptophan repressor (or trp repressor) is a transcription factor involved in controlling amino acid metabolism. It has been best studied in Escherichia coli, where it is a dimeric protein that regulates transcription of the 5 genes in the tryptophan operon.[1] When the amino acid tryptophan is plentiful in the cell, it binds to the protein, which causes a conformational change in the protein.[2] The repressor complex then binds to its operator sequence in the genes it regulates, shutting off the genes.[3][4]

One of the genes regulated by trp repressor, trpR, codes for the tryptophan repressor protein itself. This is a form of feedback regulation. However, these genes are located on different operons.

The (tryptophan) repressor is a 25 kD protein homodimer which regulates transcription of the tryptophan biosynthetic pathway in bacteria. There are 5 operons which are regulated by trpR: the trpEDCBA, trpR, AroH, AroL, and mtr operons.

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Transcription

Mechanism

When the amino acid tryptophan is in plentiful supply in the cell, trpR binds 2 molecules of tryptophan, which alters its structure and dynamics so that it becomes able to bind to operator DNA. When this occurs, transcription of the DNA is prevented, suppressing the products of the gene - proteins which make more tryptophan. When the cellular levels of tryptophan decline, the tryptophan molecules on the repressor fall off, allowing the repressor to return to its inactive form.

trpR also controls the regulation of its own production, through regulation of the trpR gene.[5]

The structure of the ligand-bound holorepressor, and the ligand-free forms have been determined by both X-ray crystallography and NMR.[6][7][8][9][10]

The trp operon consists of a regulatory gene, a promoter, an operator, and a terminator. The trp operon is active only when cellular tryptophan is scarce. If there isn't enough tryptophan, the repressor protein breaks off from the operator (where the repressor is normally bound) and RNA polymerase can complete its reading of the strand of DNA. If the RNA polymerase reaches the terminator (at the end of the DNA strand), the enzymes for tryptophan biosynthesis are expressed.

See also

References

  1. ^ Santillan M, Mackey MC (2001). "Dynamic regulation of the tryptophan operon: A modeling study and comparison with experimental data". Proc. Natl. Acad. Sci. U.S.A. 98 (4): 1364–9. Bibcode:2001PNAS...98.1364S. doi:10.1073/pnas.98.4.1364. PMC 29262. PMID 11171956.
  2. ^ Zhang RG, Joachimiak A, Lawson CL, Schevitz RW, Otwinowski Z, Sigler PB (1987). "The crystal structure of trp aporepressor at 1.8 A shows how binding tryptophan enhances DNA affinity". Nature. 327 (6123): 591–7. Bibcode:1987Natur.327..591Z. doi:10.1038/327591a0. PMID 3600756. S2CID 4335349.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  3. ^ Jeeves M, Evans PD, Parslow RA, Jaseja M, Hyde EI (1999). "Studies of the Escherichia coli Trp repressor binding to its five operators and to variant operator sequences". Eur. J. Biochem. 265 (3): 919–28. doi:10.1046/j.1432-1327.1999.00792.x. PMID 10518785.
  4. ^ Arvidson DN, Arvidson CG, Lawson CL, Miner J, Adams C, Youderian P (1994). "The tryptophan repressor sequence is highly conserved among the Enterobacteriaceae". Nucleic Acids Res. 22 (10): 1821–9. doi:10.1093/nar/22.10.1821. PMC 308080. PMID 8208606.
  5. ^ Kelley RL, Yanofsky C (May 1982). "Trp aporepressor production is controlled by autogenous regulation and inefficient translation". Proc. Natl. Acad. Sci. U.S.A. 79 (10): 3120–4. Bibcode:1982PNAS...79.3120K. doi:10.1073/pnas.79.10.3120. PMC 346365. PMID 7048301.
  6. ^ Schevitz RW, Otwinowski Z, Joachimiak A, Lawson CL, Sigler PB (1985). "The three-dimensional structure of trp repressor". Nature. 317 (6040): 782–6. Bibcode:1985Natur.317..782S. doi:10.1038/317782a0. PMID 3903514. S2CID 4340128.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  7. ^ Otwinowski Z, Schevitz RW, Zhang RG, et al. (1988). "Crystal structure of trp repressor/operator complex at atomic resolution". Nature. 335 (6188): 321–9. Bibcode:1988Natur.335..321O. doi:10.1038/335321a0. PMID 3419502. S2CID 9358980.
  8. ^ Lawson CL, Carey J (1993). "Tandem binding in crystals of a trp repressor/operator half-site complex". Nature. 366 (6451): 178–82. Bibcode:1993Natur.366..178L. doi:10.1038/366178a0. PMID 8232559. S2CID 4309487.
  9. ^ Zhao D, Arrowsmith CH, Jia X, Jardetzky O (1993). "Refined solution structures of the Escherichia coli trp holo- and aporepressor". J. Mol. Biol. 229 (3): 735–46. doi:10.1006/jmbi.1993.1076. PMID 8433368.
  10. ^ Zhang H, Zhao D, Revington M, et al. (1994). "The solution structures of the trp repressor-operator DNA complex". J. Mol. Biol. 238 (4): 592–614. doi:10.1006/jmbi.1994.1317. PMID 8176748.
This page was last edited on 15 February 2023, at 00:04
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