KEGG T01612: NECHADRAFT

Nectria haematococca: NECHADRAFT_103041

Entry

NECHADRAFT_103041 CDS T01612

Definition

hypothetical protein

Orthology

K02178

checkpoint serine/threonine-protein kinase [EC:2.7.11.1]

Organism

nhe Nectria haematococca

Pathway

nhe04111	Cell cycle - yeast
nhe04113	Meiosis - yeast

Class

Cellular Processes; Cell growth and death; Cell cycle - yeast [PATH:nhe04111]
Cellular Processes; Cell growth and death; Meiosis - yeast [PATH:nhe04113]

SSDB

Motif

Pfam:

Mad3_BUB1_I Pkinase Pkinase_Tyr

Other DBs

NCBI-GI:

NCBI-GeneID:

JGI:

UniProt:

Position

AA seq 1228 aa
MSASEDLIDFNLIEGQKENIQSLPGGRSAKKLAQLYSPTPLHKLSTPTPSDTRNVHDCIR
AEFEAEVENLAESDDPLDIFERYVRWTLDAYPSAQATPQSQLHTLLERATKAFIGSAQYK
NDPRYLKLWVHYIHFFSDAPRETFMFLSRHGIGESLALFYEEYAAWLEGAGRWAQAEEVY
KLGIEREARPVQRLLRKFKEFEERVAQQPEVMDEPSSPALPTVRPALAAKVDPFAAARAA
DPQAPRPTSGGGSKPNKSKLAIFSDSDAKPSAMSTRPPSSKGWDTIGSLADRKKENAVEA
KPWAGETLQAGGKKSAAPKMSIFRDPSLSQIQNIVVVPSQHQVSLHPHTGKKERVFVDLA
AIYPTPEELGTELSFEEIMAANRGWLDRSWEEESVDENLVPEPIAPLVEIEEISKRVGEK
LVIHQDPAEKLMIHRDSADRLMIHKDPPAGKLVIHQDRSDKLVIHKDTVQYDENGRAMEQ
PRGPRGGKKKKVIEVNETQIIKAKLDSPSRPKLKKKNTSEPTMTIHTKAATDEIYDIFNA
PLKPAGQDDEESAYDDDDYESDDNYTTDVESTGTTRQIEPSEAGDDETSDAKSVSEWSDF
STRRHVPNLNEDGDDDEEERDGERNDTQVSDLIDTSAPVTEQEPSEAFDNSDRQDRTEDA
EEGEDVEELETPVTEEFPPMTRTSFIPIPPEDYEPPTRPYRDPAEVANNRLPFMTPITER
TEASLDVTVERNEYKTPCKKDNSMLVDDEEGSDLEPLSSPLRDIVHEARPAPKMSAPLAP
KSIGPLGKSIPSKPLPPKGPIIKDIQCNPVDESIRAEIITKMLPPLSAYSGFYDHRQEKY
ERGNEIRKFAKALAKANKSGDRTGPITSPIEIEFPDTHAVYTVKKELGAGAFAPVYLVEN
SAPEGDENDENAIPMMGKGAFAVNHRSEVEALKMETPPSPWEFHIMRLAHTRLGPQHRAS
ASMSYAHEMHLYQDEGFLFLPYHPHGTLLDVVNFFRAEPSAIMDEQLAMFFTIELLRTVE
ALHSKSLLHGDLKADNCLLRLDTLMSEEPLSSQWKADGSGGWSSRGVVLIDFGRGIDMRA
FVPDVEFIADWKTSAQDCAEMREGRPWTWQIDYHGLAGIIHTLLFGKYIETMRCDQGGLG
KSGRRYKVRESLKRYWQTDLWSDCFELLLNPGAAAEAGGEEGSKMPVLKSMKSVRERMEK
WLEANCERGVGLKSLMGKLEASFSKNRK

NT seq 3687 nt +upstreamnt +downstreamnt
atgtcagcctcagaagaccttatcgactttaacctgatcgaagggcaaaaggagaacatt
cagtccttgcctggtggtcgttcagcaaagaaactggcccaactctactcgcccacacca
cttcacaaactctcgacaccaacaccttccgacacacgcaatgtgcacgactgcatccga
gccgagttcgaggctgaggtcgagaacctcgccgagtcggatgatcccctcgatatcttc
gagcgctacgttcgatggaccctagatgcctacccctcggcgcaagcgacaccacagtcg
cagcttcacactcttcttgagcgcgcgacaaaggccttcattggctcagcgcaatacaag
aacgaccctagatacctcaaactctgggttcactacatccactttttctccgatgccccg
cgcgagacattcatgttcttgtcccgacacggtatcggagagtcccttgctctcttctac
gaagagtacgcggcgtggctcgagggtgccggacgatgggctcaggctgaagaggtgtac
aagctgggtatcgagcgcgaggcccggccggttcagcgactcttacgcaagttcaaggag
tttgaggagcgagttgcacagcagccagaggtcatggacgagccctcatcgccagctctg
cccactgtccgaccagcccttgccgccaaggtcgacccattcgcagctgcgcgggcagca
gacccccaagcccctcggccaacaagcggtggaggatcgaagcccaacaagtccaagcta
gccatcttctcggattctgatgccaagccatccgccatgtctacaagaccgcctagttct
aagggctgggacaccatcggttcgctcgcggatcgtaagaaggagaacgctgtggaggcc
aagccctgggctggcgagactctccaagcaggggggaagaagagcgctgctcccaagatg
tcgatctttagggatccgtctctttcgcaaatacagaatattgttgttgttccttcacaa
catcaggtctcacttcatccccatacgggcaaaaaggaacgcgtgtttgttgaccttgct
gcaatttacccaactccagaggagcttggcactgagctaagctttgaggagattatggct
gccaatcgaggctggcttgatcgcagctgggaggaggagtctgttgacgagaacctggtc
cctgagcccattgctcctcttgttgagattgaagaaatcagcaagcgagttggagagaag
ctcgtgattcatcaggatcctgccgagaagctgatgatccaccgagattctgctgacagg
ctgatgatccataaagatcctcctgctggcaagctagtcattcatcaagaccgttctgac
aagttggtgattcacaaagacactgtgcagtatgacgagaacggcagggccatggagcag
cctcgaggaccacgagggggcaagaagaagaaggtgattgaagtcaacgagactcagatc
atcaaggcaaagcttgattccccatcaaggcccaagctaaagaagaagaacacctcggag
cccaccatgacgatccataccaaagccgccactgatgagatctacgacattttcaatgct
ccgttgaagcctgccggccaggacgatgaagagagcgcctacgatgatgatgattacgag
agtgacgacaactacacgactgacgtggagagcactggaacaactaggcagattgagccc
agcgaggctggtgacgatgagacgtctgatgcgaagagtgtcagcgaatggtccgacttt
tcaacaagaagacacgttcccaacctcaatgaggatggggacgatgacgaggaagagcgt
gatggcgaacgaaacgacacccaggtctctgatctcatcgatacaagtgcaccagtgaca
gagcaagaaccatctgaggctttcgacaactctgatcgacaggaccgaactgaggatgcc
gaggaaggagaagatgttgaggagctcgagaccccagtgacagaagagttccctcccatg
acacggacaagcttcatccctatcccccctgaagactacgagccaccaactcggccgtat
agggacccggctgaggtggccaacaatcgactgccgtttatgacacccatcacagagagg
actgaagcatccctcgacgtgacagtggagcgcaacgagtataagacgccttgcaagaag
gacaactcgatgttggtggatgatgaagagggttcggatcttgagcccctgagcagccca
ctacgcgacatagtgcacgaggctcgccctgctccgaagatgtcggctcctttggccccc
aagtccattgggcctctgggaaagtcgattccctcaaagcccctccctcccaagggtccc
atcatcaaggatatccagtgcaaccctgttgatgagtcgattcgggctgaaatcatcacc
aagatgctgccgccgttgagcgcctactctggattctacgaccaccggcaggagaagtac
gaaaggggcaacgaaattcgcaagtttgccaaggccctcgccaaagccaacaagtctggt
gataggactggacctattaccagcccaatcgagatcgagttccccgatactcacgccgtg
tatacggtcaaaaaggaactcggagctggagcttttgcacctgtctatctggtagagaac
tcggcccctgaaggtgacgagaatgatgagaatgccattcccatgatgggcaagggtgca
tttgctgtcaaccaccgcagcgaggttgaagcactcaagatggagacgccgccttcacca
tgggagttccatattatgcgtctcgctcatacccgcttgggccctcagcaccgtgcttcg
gcctccatgtcgtacgcacatgagatgcatctataccaagacgagggattcctcttcctg
ccataccatcctcatggtacactactcgatgtggtcaacttcttccgggctgagccttct
gccattatggacgagcagttggccatgttcttcacgattgagctcctccgaacggtagag
gctctccactccaagagtctcctgcatggcgatctcaaggccgacaactgtcttttgcgt
ctggacactctcatgagcgaagagcccctatcaagtcagtggaaggccgatggcagtggt
ggttggtcttcgcggggtgtagtcctcatcgactttggacgaggcatcgacatgcgcgct
ttcgtgcctgatgtcgagttcatcgctgactggaagacgagtgctcaagactgcgccgag
atgcgagagggtcgaccatggacatggcagattgactaccatggtcttgccggcatcatc
cacactctgctctttggcaagtacatcgagacgatgcgctgtgaccagggcgggctgggc
aagtctggcagacggtacaaggttcgcgagagcctcaagcgatactggcagacggatctc
tggtccgactgcttcgaacttctgctcaaccctggtgcagctgccgaggcaggaggtgag
gagggcagcaagatgcctgttctcaagtcgatgaagagcgtgagggagcgtatggagaag
tggctagaggccaactgcgagagaggcgtcgggttgaagagtttgatggggaagctggag
gcttcgttttccaagaaccgcaagtag

All links

Pathway (2)   
   KEGG PATHWAY (2)   
Chemical reaction (1)   
   KEGG ENZYME (1)   
Genome (1)   
   KEGG GENOME (1)   
Gene (5)   
   KEGG ORTHOLOGY (1)   
   NCBI-Gene (1)   
   NCBI-GI (1)   
   JGI-NHE (1)   
   OC (1)   
Protein sequence (2)   
   UniProt (1)   
   RefSeq(pep) (1)   
DNA sequence (1)   
   RefSeq(nuc) (1)   
Protein domain (3)   
   Pfam (3)   
All databases (15)   

Download RDF

DBGET integrated database retrieval system