MSK1/YNL073W Summary

Standard Name	MSK1 1
Systematic Name	YNL073W
Feature Type	ORF, Verified
Description	Mitochondrial lysine-tRNA synthetase, required for import of both aminoacylated and deacylated forms of tRNA(Lys) into mitochondria and for aminoacylation of mitochondrially encoded tRNA(Lys) (2, 3 and see Summary Paragraph)
Name Description	Mitochondrial aminoacyl-tRNA Synthetase, lysine (K) 1

Chromosomal Location	ChrXIV:488386 to 490116 \| ORF Map \| GBrowse

Gene Ontology Annotations All MSK1 GO evidence and references

	View Computational GO annotations for MSK1
Molecular Function
Manually curated	lysine-tRNA ligase activity (IMP, ISA)
Biological Process
Manually curated	lysyl-tRNA aminoacylation (ISA) mitochondrial lysyl-tRNA aminoacylation (IMP) mitochondrial translation (IMP) tRNA import into mitochondrion (IDA)
Cellular Component
Manually curated	mitochondrion (IDA)
High-throughput	mitochondrion (IDA)

Mutant phenotypes All MSK1 Phenotype evidence and references

Classical genetics
null	respiratory growth: absent
reduction of function	mitochondrial genome maintenance: absent respiratory growth: absent
Large-scale survey
null	cell size: decreased competitive fitness: decreased dessication resistance: decreased filamentous growth: decreased heat sensitivity: increased invasive growth: absent resistance to 2,4-Diacetylphloroglucinol: decreased resistance to 4-chlorophenol: decreased resistance to 2,4-dichlorophenol: decreased resistance to ethanol: decreased resistance to citric acid: decreased resistance to trichothecene: increased respiratory growth: absent respiratory growth: decreased rate vegetative growth: decreased rate viable
overexpression	filamentous growth: decreased invasive growth: absent
Resources	PROPHECY \| SCMD \| ScreenTroll \| Yeast Fitness Database

interactions All MSK1 Interaction evidence and references

	82 total interaction(s) for 79 unique genes/features.
Physical Interactions	Affinity Capture-MS: 7 Affinity Capture-RNA: 1 Affinity Capture-Western: 1 Biochemical Activity: 4 Two-hybrid: 11
Genetic Interactions	Negative Genetic: 39 Positive Genetic: 15 Synthetic Growth Defect: 2 Synthetic Lethality: 2
Resources	BioGRID \| BOND \| BioPIXIE \| CYC2008 (complexes) \| Complexome \| DIP \| DRYGIN \| GeneMANIA \| InterologFinder

Expression Summary


Resources	Expression Summary \| Cell cycle and metabolic oscillation \| Cell cycle transcript profile \| Cyclebase \| Genevestigator \| GermOnline \| SPELL \| YMGV \| YeastFunc

Protein Information All MSK1 Protein evidence and references

Localization	YeastRC \| Organelle DB (UMich) \| YPL+ \| YeastGFP
Phosphorylation	PhosphoGRID \| PhosphoPep Database
Structure	GPMDB \| SCOP \| YeastRC
Homologs	Ashbya (AGD) \| CGD Homologs \| CandidaDB Homologs \| Fungal Orthogroups Repository \| P-POD \| PDB Homologs \| PhylomeDB \| YGOB \| YOGY

sequence information

ChrXIV:488386 to 490116 | |

Last Update

Coordinates: 2011-02-03 | Sequence: 1996-07-31

Subfeature details

	Relative Coordinates	Chromosomal Coordinates	Most Recent Updates
	Relative Coordinates	Chromosomal Coordinates	Coordinates	Sequence
CDS	1..1731	488386..490116	2011-02-03	1996-07-31

Retrieve sequences

Analyze Sequence

S288C only	BLASTP \| ATCC/WashU Clones \| BLASTN \| Design Primers \| Restriction Fragment Map \| Restriction Fragment Sizes \| Six-Frame Translation
S288C vs. other species	Fungal Alignment \| BLASTN vs. fungi \| BLASTP at NCBI \| BLASTP vs. fungi \| Synteny Viewer
S288C vs. other strains	Strain Alignment

Resources

External Links	All Associated Seq \| E.C. \| Entrez Gene \| Entrez RefSeq Protein \| MIPS \| Search all NCBI (Entrez) \| UniProtKB

Primary SGDID	S000005017

SUMMARY PARAGRAPH for MSK1

About aminoacyl-tRNA synthetases...

In a process critical for accurate translation of the genetic code, aminoacyl-tRNA synthetases (aka aminoacyl-tRNA ligases) attach amino acids specifically to cognate tRNAs, thereby "charging" the tRNAs. The catalysis is accomplished via a two-step mechanism. First, the synthetase activates the amino acid in an ATP-dependent reaction, producing aminoacyl-adenylate and releasing inorganic pyrophosphate (PPi). Second, the enzyme binds the correct tRNA and transfers the activated amino acid to either the 2' or 3' terminal hydroxyl group of the tRNA, forming the aminoacyl-tRNA and AMP (4, 5 and references therein).

Aminoacyl-tRNA synthetases possess precise substrate specificity and, despite their similarity in function, vary in size, primary sequence and subunit composition. Individual members of the aminoacyl-tRNA synthetase family can be categorized in one of two classes, depending on amino acid specificity. Class I enzymes (those specific for Glu, Gln, Arg, Cys, Met, Val, Ile, Leu, Tyr and Trp) typically contain two highly conserved sequence motifs, are monomeric or dimeric, and aminoacylate at the 2' terminal hydroxyl of the appropriate tRNA. Class II enzymes (those specific for Gly, Ala, Pro, Ser, Thr, His, Asp, Asn, Lys and Phe) typically contain three highly conserved sequence motifs, are dimeric or tetrameric, and aminoacylate at the 3' terminal hydroxyl of the appropriate tRNA (4, 5, 6 and references therein).

Last updated: 2008-07-14

References cited on this page View Complete Literature Guide for MSK1

1)	Gatti DL and Tzagoloff A (1991) Structure and evolution of a group of related aminoacyl-tRNA synthetases. J Mol Biol 218(3):557-68
2)	Tarassov I, et al. (1995) Mitochondrial import of a cytoplasmic lysine-tRNA in yeast is mediated by cooperation of cytoplasmic and mitochondrial lysyl-tRNA synthetases. EMBO J 14(14):3461-71
3)	Kamenski P, et al. (2007) Evidence for an Adaptation Mechanism of Mitochondrial Translation via tRNA Import from the Cytosol. Mol Cell 26(5):625-37
4)	Delarue M (1995) Aminoacyl-tRNA synthetases. Curr Opin Struct Biol 5(1):48-55
5)	Arnez JG and Moras D (1997) Structural and functional considerations of the aminoacylation reaction. Trends Biochem Sci 22(6):211-6
6)	Eriani G, et al. (1990) Partition of tRNA synthetases into two classes based on mutually exclusive sets of sequence motifs. Nature 347(6289):203-6