KLTH0E03652g


similar to uniprot|P38691 Saccharomyces cerevisiae YHR082C KSP1 Nonessential putative serine/threonine protein kinase of unknown cellular role overproduction causes allele-specific suppression of the prp20-10 mutation

Genomic environment map

Element type: CDS
Element length: 2445 nucleotides,
on sense strand of
Klth0E: 330227..332671.
Other names:
KLTH-ORF9842
Coding sequence: 815 codons.
Database cross references:
EMBL: CU928169
GeneID: 8291789
GenomeReviews: CU928169_GR

Computed results  

None available yet


Homologs and Orthologs

Homologs in protein family: GL3C0493
Orthologs: strict determination not possible; homologs must be refined manually

Protein KLTH0E03652p  


similar to uniprot|P38691 Saccharomyces cerevisiae YHR082C KSP1 Nonessential putative serine/threonine protein kinase of unknown cellular role overproduction causes allele-specific suppression of the prp20-10 mutation; SubName: Full=KLTH0E03652p;

Protein domain map

Protein length: 814 amino acids
Protein family: GL3C0493
Database cross references:
InterPro: IPR000719
InterPro: IPR008271
InterPro: IPR011009
InterPro: IPR017442
InterPro: IPR020636
KEGG: lth:KLTH0E03652g
PROSITE: PS00108
PROSITE: PS50011
Pfam: PF00069
RefSeq: XP_002553640.1
UniProtKB/TrEMBL: C5DHE2
UniProtKB: C5DHE2_LACTC

Phylogeny  

PhylomeDB:KLTH0E03652g

Computed results for KLTH0E03652p  

None available yet

Gene Ontology terms  


Sequence data  


Nucleotide sequence    

>KLTH0E03652g.nt
ATGACAGAAGATTACGAAGTCTACAAGGAGGGGGGTCTTTTACGCGAGCGCTACAAGAAG
GTGGATGACATAAGCGAAGGCTCTTATGGGTACGTTTCTCTCGCCAACGATACTCAGACC
AAGAAGCTGGTGGCCGTGAAGTACATATTCAAAAATGAGGAGCTCGAACATGGCTCCAGT
TTTGAAGGAGACACGGACATGGGTTCCCACAATTCCTCCAACCAAAAAAAGAATGAAATG
ATCAAGCACCAGAAATCGTTGATCTCCGACAAAGTCCGGTCTAGATTGTCCAAAAACATC
TGTTTCGAAGCTCTTTACGAAGTTGATATTCACACAAAGGTTGGAAAACACAAGAACATT
ACAGAGCTCTATGACTTTTTTGACTCTTTCATTATCATGGAGTATTGTTCAGGTGGCGAT
CTTTATGAAGCTATCAGAGCCGATTTGGTTCCCAAGAAGACCAAGCTTATTACTCACATT
GCATCCCAAATGATGGAAGCCATTGATTTTGTCCACAAGAAAGGAATTTACCACAGAGAC
ATCAAGCCCGAAAATATCCTCATTGAGGGTTCCGACTGGACCATCAAGCTCACTGACTGG
GGGCTTGCCACCACAGAAACCACTTCAATGGACAGAAGTGTCGGCAGCGAGCGCTACATG
GCGCCTGAGCTCTTTGAAGAAAATTTAGACCGCGAGGAACGTGCAGAACCCTATGATTGT
AGCAAGGTGGACCTATGGGCGATTGGAATCGTGCTTTTGAATGTTGTTTTTCACAAAAAC
CCATTCAGCGTGGCAAACCAGAGCGATAAATCGTTTTGCTATTTTGCCGCCAACAGAGAA
GCTCTTTTCGACATCTTTTCTACTATGTCTTTCGATTTTTTCCAGGTTTTGAGACATAGT
TTGACTATAGATCCCACTAACCGTGACCTTGACAGCATGAAAAAGGAGCTTGCTCAACTA
GGGGAGTACACCCTCGATGATGAGTATTATAACAACTTGACAGATGATGGATATACCCCT
CCAAAATTGGAGGAGGAAAGCGCCACACCAGTGTCAACATCTACAACGCCAATAACCATT
GAAGATGGAATCGGAGGTAAAATACCAAGGATTTCAGTTGAGACTATTACGCCAACAGCC
TCCATCAAGACAAAATCGAAAGAAAAAGATCCTATTCCGCGTTTCAAGTTCACAAAGAGG
AGCCACCCAAATACCAGGGACGGGAACAACAAACCCGCCAAACCGATCAGAATTGATAAT
TCAAAAATTATCAAAAATAGCCGGAAGCCACTCGCTATTCCTACGCCTAATACGCACATT
AACAACTTTTTCCACGACTATCAGTCAAAGGAGAAAGAGAGCTTCAACACGAGAGATTTT
TTTACCCCACCTAGCGTCCATAATCGCTACATGGAAGGGATCTTCAACAAGTCAAGTAAA
CACCGTGGCCACAGAAACAGGAGGCCAAGCTCTAACGGGAATCTCAAGTTCACTCCTAAA
CAAGGAGCCAATAACTTGTCAACATCATTTGGTAGGCGCGGATCCACATATTCACAGCAT
TCACCCTCAGGGAAGTACGTGCCACCACATTCTCGTCCATCTTCGTTGTATAGTGGGTCT
CCTCATATTCCCACCATTAATTCCGTGCTCGACGGAGCTGAATCGGGGCCACCAGTTCTC
ACCAAAAGTACCTACCATGAGCAACACCCTGCCGTTGTTGATAACAATGAAAACGATCTT
GATGACGTGTTGTTTACGCTTGAGGAAAACGACATTGATAGCTTCACAAACGACATTGGC
GGGCTTGCCATTGAAGATACGACTATCAAAAGTGCTCCTGATACCGTCGAAGATATTGGC
GCTAGCTCTGCTAATACAGGCGAGCTGCCAGATCTTCTCAAGTCACCGACATTAGCTAAC
AAAGAGCTGGAGCCGGCTACCAGAAACCCATTTTTCAACCAGCTACAAGAGCAGAATCCC
AATAAGGACACCGTTTATAAACACAAGCCCGGTGTTTACATACCTCCTCACCACAGGAAG
AGCTCTGGTGGCAACTCGATCAGTAACCAGCCTTTGTCTCCCTACGGAGGTGAAGCCACT
TTATCTGTGGGCCAAAACTCTGTCAGCTATGGAGGCTTGAATACACGGCGGAAGAGTTCT
GGTAATTCACGCGCTGTAAAAAATACTCCAAAAGGCAGGCCTTTTATGTCTCGGAATCAC
GGTCGGGCCACAACCGAAGTTCAGCAAAGCGATATATTTGCGGACTCAAACGCTGTGGTG
TTTGAAGAAGACGATAACGAATTACCCTCTTTCAGTCCTAGCAGCTTCTACCAATCTGGT
ACCTTTCGTACCGGGAGGAAATCTAGTTCAGTTCAAGACGAATTGATAGGTTCGCTAGAG
CAGTATAAGAATAACTGGCTCATGTTACAACAGCAGCAAGACTGA

Coding sequence    

>KLTH0E03652g.cds
ATGACAGAAGATTACGAAGTCTACAAGGAGGGGGGTCTTTTACGCGAGCGCTACAAGAAG
GTGGATGACATAAGCGAAGGCTCTTATGGGTACGTTTCTCTCGCCAACGATACTCAGACC
AAGAAGCTGGTGGCCGTGAAGTACATATTCAAAAATGAGGAGCTCGAACATGGCTCCAGT
TTTGAAGGAGACACGGACATGGGTTCCCACAATTCCTCCAACCAAAAAAAGAATGAAATG
ATCAAGCACCAGAAATCGTTGATCTCCGACAAAGTCCGGTCTAGATTGTCCAAAAACATC
TGTTTCGAAGCTCTTTACGAAGTTGATATTCACACAAAGGTTGGAAAACACAAGAACATT
ACAGAGCTCTATGACTTTTTTGACTCTTTCATTATCATGGAGTATTGTTCAGGTGGCGAT
CTTTATGAAGCTATCAGAGCCGATTTGGTTCCCAAGAAGACCAAGCTTATTACTCACATT
GCATCCCAAATGATGGAAGCCATTGATTTTGTCCACAAGAAAGGAATTTACCACAGAGAC
ATCAAGCCCGAAAATATCCTCATTGAGGGTTCCGACTGGACCATCAAGCTCACTGACTGG
GGGCTTGCCACCACAGAAACCACTTCAATGGACAGAAGTGTCGGCAGCGAGCGCTACATG
GCGCCTGAGCTCTTTGAAGAAAATTTAGACCGCGAGGAACGTGCAGAACCCTATGATTGT
AGCAAGGTGGACCTATGGGCGATTGGAATCGTGCTTTTGAATGTTGTTTTTCACAAAAAC
CCATTCAGCGTGGCAAACCAGAGCGATAAATCGTTTTGCTATTTTGCCGCCAACAGAGAA
GCTCTTTTCGACATCTTTTCTACTATGTCTTTCGATTTTTTCCAGGTTTTGAGACATAGT
TTGACTATAGATCCCACTAACCGTGACCTTGACAGCATGAAAAAGGAGCTTGCTCAACTA
GGGGAGTACACCCTCGATGATGAGTATTATAACAACTTGACAGATGATGGATATACCCCT
CCAAAATTGGAGGAGGAAAGCGCCACACCAGTGTCAACATCTACAACGCCAATAACCATT
GAAGATGGAATCGGAGGTAAAATACCAAGGATTTCAGTTGAGACTATTACGCCAACAGCC
TCCATCAAGACAAAATCGAAAGAAAAAGATCCTATTCCGCGTTTCAAGTTCACAAAGAGG
AGCCACCCAAATACCAGGGACGGGAACAACAAACCCGCCAAACCGATCAGAATTGATAAT
TCAAAAATTATCAAAAATAGCCGGAAGCCACTCGCTATTCCTACGCCTAATACGCACATT
AACAACTTTTTCCACGACTATCAGTCAAAGGAGAAAGAGAGCTTCAACACGAGAGATTTT
TTTACCCCACCTAGCGTCCATAATCGCTACATGGAAGGGATCTTCAACAAGTCAAGTAAA
CACCGTGGCCACAGAAACAGGAGGCCAAGCTCTAACGGGAATCTCAAGTTCACTCCTAAA
CAAGGAGCCAATAACTTGTCAACATCATTTGGTAGGCGCGGATCCACATATTCACAGCAT
TCACCCTCAGGGAAGTACGTGCCACCACATTCTCGTCCATCTTCGTTGTATAGTGGGTCT
CCTCATATTCCCACCATTAATTCCGTGCTCGACGGAGCTGAATCGGGGCCACCAGTTCTC
ACCAAAAGTACCTACCATGAGCAACACCCTGCCGTTGTTGATAACAATGAAAACGATCTT
GATGACGTGTTGTTTACGCTTGAGGAAAACGACATTGATAGCTTCACAAACGACATTGGC
GGGCTTGCCATTGAAGATACGACTATCAAAAGTGCTCCTGATACCGTCGAAGATATTGGC
GCTAGCTCTGCTAATACAGGCGAGCTGCCAGATCTTCTCAAGTCACCGACATTAGCTAAC
AAAGAGCTGGAGCCGGCTACCAGAAACCCATTTTTCAACCAGCTACAAGAGCAGAATCCC
AATAAGGACACCGTTTATAAACACAAGCCCGGTGTTTACATACCTCCTCACCACAGGAAG
AGCTCTGGTGGCAACTCGATCAGTAACCAGCCTTTGTCTCCCTACGGAGGTGAAGCCACT
TTATCTGTGGGCCAAAACTCTGTCAGCTATGGAGGCTTGAATACACGGCGGAAGAGTTCT
GGTAATTCACGCGCTGTAAAAAATACTCCAAAAGGCAGGCCTTTTATGTCTCGGAATCAC
GGTCGGGCCACAACCGAAGTTCAGCAAAGCGATATATTTGCGGACTCAAACGCTGTGGTG
TTTGAAGAAGACGATAACGAATTACCCTCTTTCAGTCCTAGCAGCTTCTACCAATCTGGT
ACCTTTCGTACCGGGAGGAAATCTAGTTCAGTTCAAGACGAATTGATAGGTTCGCTAGAG
CAGTATAAGAATAACTGGCTCATGTTACAACAGCAGCAAGACTGA

Predicted translation product    

>KLTH0E03652g.aa
MTEDYEVYKEGGLLRERYKKVDDISEGSYGYVSLANDTQTKKLVAVKYIFKNEELEHGSS
FEGDTDMGSHNSSNQKKNEMIKHQKSLISDKVRSRLSKNICFEALYEVDIHTKVGKHKNI
TELYDFFDSFIIMEYCSGGDLYEAIRADLVPKKTKLITHIASQMMEAIDFVHKKGIYHRD
IKPENILIEGSDWTIKLTDWGLATTETTSMDRSVGSERYMAPELFEENLDREERAEPYDC
SKVDLWAIGIVLLNVVFHKNPFSVANQSDKSFCYFAANREALFDIFSTMSFDFFQVLRHS
LTIDPTNRDLDSMKKELAQLGEYTLDDEYYNNLTDDGYTPPKLEEESATPVSTSTTPITI
EDGIGGKIPRISVETITPTASIKTKSKEKDPIPRFKFTKRSHPNTRDGNNKPAKPIRIDN
SKIIKNSRKPLAIPTPNTHINNFFHDYQSKEKESFNTRDFFTPPSVHNRYMEGIFNKSSK
HRGHRNRRPSSNGNLKFTPKQGANNLSTSFGRRGSTYSQHSPSGKYVPPHSRPSSLYSGS
PHIPTINSVLDGAESGPPVLTKSTYHEQHPAVVDNNENDLDDVLFTLEENDIDSFTNDIG
GLAIEDTTIKSAPDTVEDIGASSANTGELPDLLKSPTLANKELEPATRNPFFNQLQEQNP
NKDTVYKHKPGVYIPPHHRKSSGGNSISNQPLSPYGGEATLSVGQNSVSYGGLNTRRKSS
GNSRAVKNTPKGRPFMSRNHGRATTEVQQSDIFADSNAVVFEEDDNELPSFSPSSFYQSG
TFRTGRKSSSVQDELIGSLEQYKNNWLMLQQQQD*




Legend and notes  


Lengths
The length, in codons, of coding sequences includes the stop codon, hence it is one unit longer than the protein length.

Genomic environment map
Click on the symbol of an element or a family to go to its corresponding page. Colors in the lane "protein encoding genes" indicate strandedness: shades of blue for direct orientation, shades of red for reverse orientation. Colors in the lane "protein family" are arbitrarly chosen in such a way that different protein families have different colors in the map.

Protein domain map
Domains are extracted from SwissProt files. Click on the symbol of a domain to extract the domain sequence.

Genemark image and list
Genemark computation of protein-coding potential of DNA was made from 1000 nucleotides upstream the open reading frame to 300 nucleotides downstream. Thus the open reading frame protein-coding potential appears on frame #3.

Sequences
ColorNucleotide sequence and Coding sequencePredicted translation product
REDstart and stop codonsInitial methionine and sequence end
BLUEcoding sequenceprotein sequence
greynon-coding sequence (upstream, downstream or intron)
greydonor and acceptor splicing sites