Computational Method to Predict Mitochondrially Imported Proteins and their Targeting Sequences

Claros, M. Gonzalo; Vincens, Pierre

doi:10.1111/j.1432-1033.1996.00779.x

Cited by 1,533 publications

(1,242 citation statements)

References 37 publications

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“…Prediction programs suggested that this could be an organellar targeting sequence. MitoProt (Claros and Vincens 1996), searching for putative mitochondrial targeting sequences, strongly predicted (score of 0.97) a 53-amino acid N-terminal targeting peptide. ChloroP (Emanuelsson et al 1999), searching for chloroplast targeting sequences, predicted (score of 0.56) a 34-amino acid N-terminal targeting peptide.…”

Section: Organellar Targetingmentioning

confidence: 99%

Duplication and Quadruplication of Arabidopsis thaliana Cysteinyl- and Asparaginyl-tRNA Synthetase Genes of Organellar Origin

et al. 2000

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Abstract. Two cysteinyl-tRNA synthetases (CysRS) and four asparaginyl-tRNA synthetases (AsnRS) from Arabidopsis thaliana were characterized from genome sequence data, EST sequences, and RACE sequences. For one CysRS and one AsnRS, sequence alignments and prediction programs suggested the presence of an N-terminal organellar targeting peptide. Transient expression of these putative targeting sequences joined to jellyfish green fluorescent protein (GFP) demonstrated that both presequences can efficiently dual-target GFP to mitochondria and plastids. The other CysRS and AsnRSs lack targeting sequences and presumably aminoacylate cytosolic tRNAs. Phylogenetic analysis suggests that the four AsnRSs evolved by repeated duplication of a gene transferred from an ancestral plastid and that the CysRSs also arose by duplication of a transferred organelle gene (possibly mitochondrial). These case histories are the best examples to date of capture of organellar aminoacyltRNA synthetases by the cytosolic protein synthesis machinery.

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Section: Organellar Targetingmentioning

confidence: 99%

Duplication and Quadruplication of Arabidopsis thaliana Cysteinyl- and Asparaginyl-tRNA Synthetase Genes of Organellar Origin

et al. 2000

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“…Mitochondrial localization is predicted for several NOCT orthologs. PSORTII [101,102], TargetP [103], and MitoProt [104] all predict mitochondrial localization of X. tropicalis, R. norvegicus, H. sapiens, M. musculus , and D. rerio NOCTA. TargetP and MitoProt predictions indicate that D. rerio NOCTB is likely to be mitochondrial; however, this conflicts with the nuclear localization predicted by PSORTII.…”

Section: Is Noct Activity Spatially Restricted?mentioning

confidence: 99%

“…TargetP and MitoProt predictions indicate that D. rerio NOCTB is likely to be mitochondrial; however, this conflicts with the nuclear localization predicted by PSORTII. Neither TargetP nor MitoProt identify D. melanogaster or X. laevis NOCT as mitochondrial [103,104]. Although useful in predicting possible NOCT functions, these programs do not account for shuttling among subcellular compartments.…”

Section: Is Noct Activity Spatially Restricted?mentioning

confidence: 99%

Regulatory roles of vertebrate Nocturnin: insights and remaining mysteries

2018

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Post-transcriptional control of messenger RNA (mRNA) is an important layer of gene regulation that modulates mRNA decay, translation, and localization. Eukaryotic mRNA decay begins with the catalytic removal of the 3′ poly-adenosine tail by deadenylase enzymes. Multiple deadenylases have been identified in vertebrates and are known to have distinct biological roles; among these proteins is Nocturnin, which has been linked to circadian biology, adipogenesis, osteogenesis, and obesity. Multiple studies have investigated Nocturnin’s involvement in these processes; however, a full understanding of its molecular function remains elusive. Recent studies have provided new insights by identifying putative Nocturnin-regulated mRNAs in mice and by determining the structure and regulatory activities of human Nocturnin. This review seeks to integrate these new discoveries into our understanding of Nocturnin’s regulatory functions and highlight the important remaining unanswered questions surrounding its regulation, biochemical activities, protein partners, and target mRNAs.

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“…The putative mitochondrial signal of PfCYP32 was further investigated since mitochondrial proteins of P. falciparum are very different from human mitochondrial proteins, making them attractive potential drug targets [33]. It was scanned for mitochondrial sequences with MitoProt [34], PlasMit [35] and PFM Pred [36]. All algorithms predicted PfCYP32 to be a mitochondrial protein.…”

Section: Data Mining Alignments and Annotated Datamentioning

confidence: 99%

Overexpression, purification and assessment of cyclosporin binding of a family of cyclophilins and cyclophilin-like proteins of the human malarial parasite Plasmodium falciparum

Marín-Menéndez

Bell

2011

Protein Expression and Purification

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Computational Method to Predict Mitochondrially Imported Proteins and their Targeting Sequences

Cited by 1,533 publications

References 37 publications

Duplication and Quadruplication of Arabidopsis thaliana Cysteinyl- and Asparaginyl-tRNA Synthetase Genes of Organellar Origin

Duplication and Quadruplication of Arabidopsis thaliana Cysteinyl- and Asparaginyl-tRNA Synthetase Genes of Organellar Origin

Regulatory roles of vertebrate Nocturnin: insights and remaining mysteries

Overexpression, purification and assessment of cyclosporin binding of a family of cyclophilins and cyclophilin-like proteins of the human malarial parasite Plasmodium falciparum

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