Proteasomes: a complex story.

Biologisk Institut

Proteasomes: a complex story.

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Standard

Proteasomes: a complex story. / Hendil, Klavs B; Hartmann-Petersen, Rasmus.

I: Current Protein and Peptide Science, Bind 5, Nr. 3, 2004, s. 135-51.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Hendil, KB & Hartmann-Petersen, R 2004, 'Proteasomes: a complex story.', Current Protein and Peptide Science, bind 5, nr. 3, s. 135-51.

APA

Hendil, K. B., & Hartmann-Petersen, R. (2004). Proteasomes: a complex story. Current Protein and Peptide Science, 5(3), 135-51.

Vancouver

Hendil KB, Hartmann-Petersen R. Proteasomes: a complex story. Current Protein and Peptide Science. 2004;5(3):135-51.

Author

Hendil, Klavs B ; Hartmann-Petersen, Rasmus. / Proteasomes: a complex story. I: Current Protein and Peptide Science. 2004 ; Bind 5, Nr. 3. s. 135-51.

Bibtex

@article{3509175095f411dd86a6000ea68e967b,

title = "Proteasomes: a complex story.",

abstract = "Protein degradation in eukaryotic cells is important for regulation of metabolism, progression through the division cycle, in cell signalling pathways, and in mammals also for generation of antigen fragments for presentation on the major histocompatibility complex (MHC) class I. Most cell proteins are degraded via the ubiquitin/proteasome pathway where an elaborate enzyme system recognises the protein substrates and marks them for destruction by attachment of a chain of ubiquitin. The substrates are then bound to 26S proteasomes, unfolded, and threaded into the cylindrical central part of the 26S proteasome, where they are cleaved to peptides. Recently many proteins, which associate with proteasomes, have been found. One of them controls the cellular contents of proteasomes by regulating their synthesis. Others ubiquitylate substrates or transfer substrates to proteasomes. Others again seem to unfold the substrates or release ubiquitin and glycans from them during degradation, stabilise proteasomes, regulate their cellular localisation, and modify their activity. It therefore appears that proteasomes are centres in macromolecular clusters, which degrade cell proteins in a tightly regulated manner.",

author = "Hendil, {Klavs B} and Rasmus Hartmann-Petersen",

note = "Keywords: Animals; Cysteine Endopeptidases; Humans; Models, Molecular; Multienzyme Complexes; Peptide Hydrolases; Proteasome Endopeptidase Complex; Protein Folding; Signal Transduction; Substrate Specificity; Ubiquitins",

year = "2004",

language = "English",

volume = "5",

pages = "135--51",

journal = "Current Protein and Peptide Science",

issn = "1389-2037",

publisher = "Bentham Science Publishers",

number = "3",

}

RIS

TY - JOUR

T1 - Proteasomes: a complex story.

AU - Hendil, Klavs B

AU - Hartmann-Petersen, Rasmus

N1 - Keywords: Animals; Cysteine Endopeptidases; Humans; Models, Molecular; Multienzyme Complexes; Peptide Hydrolases; Proteasome Endopeptidase Complex; Protein Folding; Signal Transduction; Substrate Specificity; Ubiquitins

PY - 2004

Y1 - 2004

N2 - Protein degradation in eukaryotic cells is important for regulation of metabolism, progression through the division cycle, in cell signalling pathways, and in mammals also for generation of antigen fragments for presentation on the major histocompatibility complex (MHC) class I. Most cell proteins are degraded via the ubiquitin/proteasome pathway where an elaborate enzyme system recognises the protein substrates and marks them for destruction by attachment of a chain of ubiquitin. The substrates are then bound to 26S proteasomes, unfolded, and threaded into the cylindrical central part of the 26S proteasome, where they are cleaved to peptides. Recently many proteins, which associate with proteasomes, have been found. One of them controls the cellular contents of proteasomes by regulating their synthesis. Others ubiquitylate substrates or transfer substrates to proteasomes. Others again seem to unfold the substrates or release ubiquitin and glycans from them during degradation, stabilise proteasomes, regulate their cellular localisation, and modify their activity. It therefore appears that proteasomes are centres in macromolecular clusters, which degrade cell proteins in a tightly regulated manner.

AB - Protein degradation in eukaryotic cells is important for regulation of metabolism, progression through the division cycle, in cell signalling pathways, and in mammals also for generation of antigen fragments for presentation on the major histocompatibility complex (MHC) class I. Most cell proteins are degraded via the ubiquitin/proteasome pathway where an elaborate enzyme system recognises the protein substrates and marks them for destruction by attachment of a chain of ubiquitin. The substrates are then bound to 26S proteasomes, unfolded, and threaded into the cylindrical central part of the 26S proteasome, where they are cleaved to peptides. Recently many proteins, which associate with proteasomes, have been found. One of them controls the cellular contents of proteasomes by regulating their synthesis. Others ubiquitylate substrates or transfer substrates to proteasomes. Others again seem to unfold the substrates or release ubiquitin and glycans from them during degradation, stabilise proteasomes, regulate their cellular localisation, and modify their activity. It therefore appears that proteasomes are centres in macromolecular clusters, which degrade cell proteins in a tightly regulated manner.

M3 - Journal article

C2 - 15180519

VL - 5

SP - 135

EP - 151

JO - Current Protein and Peptide Science

JF - Current Protein and Peptide Science

SN - 1389-2037

IS - 3

ER -

ID: 6493166