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Items: 1 to 20 of 35


A mitochondrial protein compendium elucidates complex I disease biology.

Pagliarini DJ, Calvo SE, Chang B, Sheth SA, Vafai SB, Ong SE, Walford GA, Sugiana C, Boneh A, Chen WK, Hill DE, Vidal M, Evans JG, Thorburn DR, Carr SA, Mootha VK.

Cell. 2008 Jul 11;134(1):112-23. doi: 10.1016/j.cell.2008.06.016.


Multiple pathways for sorting mitochondrial precursor proteins.

Bolender N, Sickmann A, Wagner R, Meisinger C, Pfanner N.

EMBO Rep. 2008 Jan;9(1):42-9. doi: 10.1038/sj.embor.7401126. Review.


Hypo, hype and 'hyp' human proteins.

Suravajhala P.

Bioinformation. 2007 Jul 10;2(1):31-3.


WoLF PSORT: protein localization predictor.

Horton P, Park KJ, Obayashi T, Fujita N, Harada H, Adams-Collier CJ, Nakai K.

Nucleic Acids Res. 2007 Jul;35(Web Server issue):W585-7.


Locating proteins in the cell using TargetP, SignalP and related tools.

Emanuelsson O, Brunak S, von Heijne G, Nielsen H.

Nat Protoc. 2007;2(4):953-71.


BaCelLo: a balanced subcellular localization predictor.

Pierleoni A, Martelli PL, Fariselli P, Casadio R.

Bioinformatics. 2006 Jul 15;22(14):e408-16.


ScanProsite: detection of PROSITE signature matches and ProRule-associated functional and structural residues in proteins.

de Castro E, Sigrist CJ, Gattiker A, Bulliard V, Langendijk-Genevaux PS, Gasteiger E, Bairoch A, Hulo N.

Nucleic Acids Res. 2006 Jul 1;34(Web Server issue):W362-5.


pTARGET: a web server for predicting protein subcellular localization.

Guda C.

Nucleic Acids Res. 2006 Jul 1;34(Web Server issue):W210-3.


MultiLoc: prediction of protein subcellular localization using N-terminal targeting sequences, sequence motifs and amino acid composition.

Höglund A, Dönnes P, Blum T, Adolph HW, Kohlbacher O.

Bioinformatics. 2006 May 15;22(10):1158-65.


SMART 5: domains in the context of genomes and networks.

Letunic I, Copley RR, Pils B, Pinkert S, Schultz J, Bork P.

Nucleic Acids Res. 2006 Jan 1;34(Database issue):D257-60.


The Nfs1 interacting protein Isd11 has an essential role in Fe/S cluster biogenesis in mitochondria.

Adam AC, Bornhövd C, Prokisch H, Neupert W, Hell K.

EMBO J. 2006 Jan 11;25(1):174-83.


Essential role of Isd11 in mitochondrial iron-sulfur cluster synthesis on Isu scaffold proteins.

Wiedemann N, Urzica E, Guiard B, Müller H, Lohaus C, Meyer HE, Ryan MT, Meisinger C, Mühlenhoff U, Lill R, Pfanner N.

EMBO J. 2006 Jan 11;25(1):184-95.


pTARGET [corrected] a new method for predicting protein subcellular localization in eukaryotes.

Guda C, Subramaniam S.

Bioinformatics. 2005 Nov 1;21(21):3963-9. Erratum in: Bioinformatics. 2005 Dec 15;21(24):4434.


Trm11p and Trm112p are both required for the formation of 2-methylguanosine at position 10 in yeast tRNA.

Purushothaman SK, Bujnicki JM, Grosjean H, Lapeyre B.

Mol Cell Biol. 2005 Jun;25(11):4359-70.


Mimicking cellular sorting improves prediction of subcellular localization.

Nair R, Rost B.

J Mol Biol. 2005 Apr 22;348(1):85-100.


Human genome: end of the beginning.

Stein LD.

Nature. 2004 Oct 21;431(7011):915-6. No abstract available.


MITOPRED: a web server for the prediction of mitochondrial proteins.

Guda C, Guda P, Fahy E, Subramaniam S.

Nucleic Acids Res. 2004 Jul 1;32(Web Server issue):W372-4.


Predicting subcellular localization of proteins using machine-learned classifiers.

Lu Z, Szafron D, Greiner R, Lu P, Wishart DS, Poulin B, Anvik J, Macdonell C, Eisner R.

Bioinformatics. 2004 Mar 1;20(4):547-56.


The protein import machinery of mitochondria.

Wiedemann N, Frazier AE, Pfanner N.

J Biol Chem. 2004 Apr 9;279(15):14473-6. Review. No abstract available.

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