CGDB Gene Information

Tag Content
CGDB ID CGD-RaN-021793
Uniprot Accession Q8CHI5; Q8CHI5; PER1_RAT; Q2KMM8
Protein Name Period circadian protein homolog 1
Gene Name Per1
Genbank Protein ID NP_001029297.1; XP_006246675.1; XP_006246676.1
Genbank Nucleotide ID NM_001034125.1; XM_006246613.2; XM_006246614.2
EMBL (Genbank) ID AAX85358.1
Organism Rattus norvegicus
NCBI Taxa ID 10116
Circadian Information
Evidence Phase Amplitude
(FOLD)		 Sentence Tissue/Cell Data type PMID
Peak Trough External
condition
Small-scale CT 12 CT 0 DD17 16.67 The aim of the study was to provide insight into the circadian core clock mechanism within the rat colon. The question of whether the colonic clock drives circadian expression in NHE4, an electroneutral Na(+)/H(+) exchanger, was also addressed. liver Small-scale [1]
Small-scale ZT 4 ZT 16 LD 3.00 The mRNA level of Per1 is under circadian control in SCN of rats. SCN Small-scale [1]
Small-scale CT 12 CT 20 DD17 6.25 The mRNA level of Per1 is under circadian control in colon of rats. colon Small-scale [1]
Small-scale ZT 8 ZT 0 LD 4.76 The RT-PCR analysis showed rhythmic changes of Per1 mRNA level in the rat uteri at the diestrous stage. The trough and peak of Per1 expression appeared around ZT 0 and ZT 8 respectively. uteri Small-scale [1]
Small-scale CT 20 CT 0 DD1 1.71 The mRNA level of Per1 is under circadian control in PC15 cells of rats. PC12 cell Small-scale [1]
Small-scale ZT 9 ZT 0 LD 48.00 Cosinor analysis confirmed previously documented rhythmicity in expression of Clock, Bmal1, ReverbA,ReverbB,Per1, and Per and demonstrated that rhythmicity for all measured clock genes fit a 26-h periodicity in intestinal jejunal mucosa of rats. intestinal jejunal mucosa Small-scale [1]
Small-scale ZT 16 ZT 4 LD >5 The circadian expression of Per1 was significantly reduced by N-nitroso-N-methylurea in the liver of rats, but not in the mammary gland. mammary gland (pubescent female F344 rats) Small-scale [1]
Small-scale ZT 12 ZT 0 LD 30.00 Per transcription factors Per1, Per2, and Per3 peaked during the early dark period in abdominal adipose tissue of rats. abdominal adipose tissue Small-scale [1]
Small-scale ZT 18 ZT 6 LD 2.00 The decidua in LD showed circadian Per1 mRNA rhythms, peaking during night 6 h after dusk, while the decidua in DD showed the same Per1 mRNA rhythms only on E22. In contrast, the labyrinth showed no circadian Per1 mRNA rhythms in LD or DD duringpregnancy. decidua Small-scale [1]
Small-scale ZT 20 ZT 8 LD 15.00 The mRNA level of PER1 is under circadian control in SCN of Sprague-Dawley rats. SCN Small-scale [1]
Small-scale ZT 20 ZT 8 LD 11.00 The mRNA level of PER1 is under circadian control in basolateral nucleus of the amygdala of Sprague-Dawley rats. basolateral nucleus of the amygdala Small-scale [1]
Small-scale ZT 4 ZT 16 LD 3.50 The mRNA level of PER1 is under circadian control in entral nucleus of the amygdala of Sprague-Dawley rats. entral nucleus of the amygdala Small-scale [1]
Small-scale ZT 20 ZT 8 LD 8.00 The mRNA level of PER1 is under circadian control in hippocampus of Sprague-Dawley rats. hippocampus Small-scale [1]
Small-scale ZT 4 ZT 16 LD 8.00 The mRNA level of PER1 is under circadian control in nucleus accumbens cores of Sprague-Dawley rats. nucleus accumbens core Small-scale [1]
Small-scale ZT 20 ZT 8 LD 7.00 The mRNA level of PER1 is under circadian control in nucleus accumbens shell of Sprague-Dawley rats. nucleus accumbens shell Small-scale [1]
Small-scale ZT 0 ZT 16 LD 7.50 The mRNA level of PER1 is under circadian control in prefrontal cortex of Sprague-Dawley rats. prefrontal cortex Small-scale [1]
Small-scale ZT 8 ZT 20 LD 7.00 The mRNA level of PER1 is under circadian control in ventral tegmental area of Sprague-Dawley rats. ventral tegmental area Small-scale [1]
Small-scale ZT 4 ZT 20 LD 3.00 There were significant rhythms of Per1, Per2, and Bmal1 in the SCN, prefrontal cortex, insula, paraventricular nucleus, subregions of the hippocampus, and amygdala with a 24-h period, suggesting the importance of oscillating molecular clock in extra-SCN brain regions. SCN Small-scale [1]
DescriptionTranscriptional repressor which forms a core component of the circadian clock. The circadian clock, an internal time-keeping system, regulates various physiological processes through the generation of approximately 24 hour circadian rhythms in gene expression, which are translated into rhythms in metabolism and behavior. It is derived from the Latin roots ''circa'' (about) and ''diem'' (day) and acts as an important regulator of a wide array of physiological functions including metabolism, sleep, body temperature, blood pressure, endocrine, immune, cardiovascular, and renal function. Consists of two major components: the central clock, residing in the suprachiasmatic nucleus (SCN) of the brain, and the peripheral clocks that are present in nearly every tissue and organ system. Both the central and peripheral clocks can be reset by environmental cues, also known as Zeitgebers (German for ''timegivers''). The predominant Zeitgeber for the central clock is light, which is sensed by retina(View all)
Protein Sequence
(Fasta)		 MSGPLEGADG GGDPRPGEPF CPGGVPSPGA PQHRPCPGPS LADDTDANSN GSSGNESNGH 60
ESRGASQRSS HSSSSGNGKD SALLETTESS KSTNSQSPSP PSSSIAYSLL SASSEQDNPS 120
TSGCSSEQSA RARTQKELMT ALRELKLRLP PERRGKGRSG TLATLQYALA CVKQVQANQE 180
YYQQWSLEEG EPCAMDMSTY TLEELEHITS EYTLRNQDTF SVAVSFLTGR IVYISEQAGV 240
LLRCKRDVFR GARFSELLAP QDVGVFYGST TPSRLPTWGT GTSAGSGLKD FTQEKSVFCR 300
IRGGPDRDPG PRYQPFRLTP YVTKIRVSDG APAQPCCLLI AERIHSGYEA PRIPPDKRIF 360
TTRHTPSCLF QDVDERAAPL LGYLPQDLLG APVLLFLHPE DRPLMLAIHK KILQLAGQPF 420
DHSPIRFCAR NGEYVTMDTS WAGFVHPWSR KVAFVLGRHK VRTAPLNEDV FTPPVPSPAP 480
SLDSDIQELS EQIHRLLLQP VHSSSTTGLC GVGPLMSPGP LHSPGSSSDS NGGDAEGPGP 540
PAPVTFQQIC KDVHLVKHQG QQLFIESRAK PPPRPRLLAT GTFKAKVLPC QSPNPELEVA 600
PAPDQASLAL APEEPERKES SGCSYQQINC LDSILRYLES CNIPNTTKRK CASSSCTASS 660
ASDDDKQRAG PVPVGAKKDT SSAVLSGEGA TPRKEPVVGG TLSPLALANK AESVVSVTSQ 720
CSFSSTIVHV GDKKPPESDI IMMEDLPGLA PGPAPSPAPS PTVAPDPAPD AYRPVGLTKA 780
VLSLHTQKEE QAFLSRFRDL GRLRGLDTSS VAPSAPGCHH GPIPSGRRHH CRSKAKRSRH 840
HQTPRPETPC YVSHPSPVPS SGPWPPPPAT TPFPAVVQPY PLPVFSPRGG PQPLPPAPTS 900
VSPATFPSPL VTPMVALVLP NYLFPSPTSY PYGVSQAPVE GPPTPASHSP SPSLPPPPPS 960
PPHRPDSPLF NSRCSSPLQL NLLQLEESPR TEGGAAAGGP GSSAGPLPPS EESAEPEPRL 1020
VEVTESSNQD ALSGSSDLLE LLLQEDSRSG TGSAASGSLG SGLGSGSGSG SHEGGSTSAS 1080
ITRSSQSSHT SKYFGSIDSS EAEAGAAQAR TEPGDQVIKY VLQDPIWLLM ANADQHVMMT 1140
YQVPSRDAAS VLKQDRERLR AMQKQQPRFS EDQRRELGAV HSWVRKGQLP QALDVTACVD 1200
CGSSVQDPGH SDDPLFSELD GLGLEPMEEG GGEGGGVGGG GGGVGGGGGD GGEEAQTQIG 1260
TKGSSSQDSA MEEEEQGGSS SSPALPAEEN GTS 1293
Nucleotide Sequence
(Fasta)		 ATGAGCGGTC CCCTAGAAGG GGCTGATGGG GGAGGAGACC CCAGGCCCGG AGAACCTTTT 60
TGTCCTGGAG GAGTTCCATC CCCTGGGGCC CCACAGCATC GGCCTTGTCC AGGCCCTAGC 120
CTGGCTGATG ACACTGATGC AAACAGCAAT GGCTCAAGTG GCAATGAATC CAATGGACAC 180
GAGTCCAGGG GTGCATCTCA GCGGAGTTCT CACAGTTCAT CTTCTGGCAA TGGCAAGGAC 240
TCAGCTCTGC TGGAGACCAC TGAGAGCAGC AAGAGTACAA ACTCACAGAG CCCATCCCCA 300
CCCAGCAGCT CCATTGCCTA TAGTCTCCTG AGTGCAAGCT CAGAGCAGGA CAACCCGTCT 360
ACCAGTGGCT GCAGCAGTGA ACAGTCAGCT CGAGCCAGGA CCCAGAAAGA ACTCATGACC 420
GCACTTCGGG AGCTCAAACT TCGGCTGCCA CCAGAGCGTC GGGGAAAGGG CCGCTCTGGG 480
ACCCTGGCCA CACTCCAGTA TGCTCTGGCC TGTGTCAAGC AGGTGCAGGC TAACCAGGAA 540
TATTACCAGC AGTGGAGCCT GGAGGAGGGT GAGCCCTGTG CCATGGACAT GTCTACTTAC 600
ACCCTGGAGG AATTGGAGCA TATCACATCT GAATACACTC TCCGCAACCA GGATACCTTC 660
TCGGTGGCTG TGTCCTTCCT GACAGGCCGG ATTGTCTATA TTTCGGAGCA GGCAGGTGTC 720
CTGCTGCGTT GCAAACGGGA TGTGTTTCGG GGTGCTCGCT TCTCAGAGCT CCTAGCTCCC 780
CAGGATGTGG GTGTCTTCTA TGGCTCTACT ACACCATCTC GCCTGCCCAC CTGGGGCACT 840
GGCACCTCTG CAGGTTCAGG CCTCAAGGAC TTCACCCAGG AAAAGTCTGT CTTCTGCCGA 900
ATCAGAGGAG GGCCTGACCG GGATCCAGGG CCTCGCTACC AGCCATTCCG CCTAACCCCA 960
TATGTGACCA AGATTCGTGT CTCAGATGGG GCCCCTGCAC AGCCGTGCTG CCTGCTCATT 1020
GCAGAGCGCA TCCACTCTGG TTATGAAGCT CCCCGGATTC CTCCTGACAA GAGGATCTTC 1080
ACCACACGGC ACACACCAAG TTGCCTCTTC CAGGATGTAG ATGAAAGGGC TGCCCCACTG 1140
CTGGGTTACC TACCCCAGGA TCTCCTGGGG GCTCCGGTAC TTCTCTTTCT ACATCCTGAG 1200
GACCGACCTC TCATGCTGGC CATTCATAAG AAGATTCTGC AGTTGGCAGG CCAGCCCTTT 1260
GACCACTCCC CTATTCGATT TTGTGCTCGG AATGGGGAAT ATGTCACCAT GGATACCAGC 1320
TGGGCCGGCT TTGTGCACCC CTGGAGCCGC AAGGTGGCTT TCGTGCTGGG CCGCCATAAA 1380
GTGCGCACGG CACCCCTGAA TGAGGACGTC TTCACACCCC CAGTTCCCAG TCCAGCTCCG 1440
TCCCTGGACT CTGATATCCA GGAGCTCTCA GAGCAGATCC ATCGATTGCT GCTGCAGCCA 1500
GTGCACAGCT CCAGCACCAC GGGGCTCTGT GGAGTTGGCC CTCTGATGTC CCCTGGTCCT 1560
CTCCACAGCC CTGGCTCCTC CAGTGATAGC AATGGGGGTG ATGCTGAGGG GCCTGGGCCT 1620
CCTGCTCCAG TGACTTTCCA GCAGATCTGT AAGGATGTGC ATCTGGTAAA GCACCAGGGA 1680
CAACAGCTCT TCATTGAGTC CCGGGCCAAG CCTCCGCCCC GGCCCCGCCT CCTTGCTACA 1740
GGTACATTCA AGGCCAAAGT CCTTCCCTGC CAGTCCCCAA ACCCGGAACT GGAGGTGGCC 1800
CCTGCTCCTG ACCAAGCCTC ATTAGCATTG GCCCCTGAGG AGCCAGAGAG GAAAGAGTCC 1860
TCTGGCTGCT CCTACCAGCA AATCAACTGC CTGGACAGCA TCCTCAGGTA TTTGGAAAGC 1920
TGCAACATTC CTAACACAAC CAAGCGTAAA TGTGCCTCCT CTTCCTGCAC GGCCTCTTCA 1980
GCCTCTGATG ATGACAAGCA GAGGGCGGGT CCAGTTCCTG TGGGGGCCAA GAAAGATACG 2040
TCGTCAGCAG TGCTGTCTGG GGAGGGGGCA ACTCCTCGGA AGGAGCCAGT GGTGGGAGGC 2100
ACCCTGAGCC CGCTCGCCCT GGCCAATAAG GCAGAGAGCG TGGTGTCCGT CACCAGTCAG 2160
TGTAGCTTCA GCTCCACCAT CGTCCATGTG GGAGACAAGA AGCCCCCGGA GTCGGACATC 2220
ATCATGATGG AAGACCTGCC TGGCCTGGCC CCTGGTCCAG CCCCCAGTCC AGCCCCCAGC 2280
CCCACAGTAG CCCCTGACCC AGCCCCAGAT GCTTATCGCC CAGTGGGTCT GACCAAGGCC 2340
GTGCTGTCCC TGCACACCCA GAAGGAAGAG CAAGCCTTCC TCAGCCGCTT CAGAGACCTC 2400
GGCAGGCTTC GTGGGCTTGA CACCTCTTCT GTGGCGCCTT CAGCCCCTGG TTGCCACCAT 2460
GGCCCCATTC CCTCTGGTCG CCGACACCAC TGCCGATCTA AAGCAAAGCG TTCTCGCCAC 2520
CACCAGACCC CCCGACCCGA AACCCCCTGC TATGTGTCTC ATCCTTCACC TGTGCCCTCT 2580
TCTGGACCCT GGCCACCCCC ACCAGCCACT ACCCCCTTCC CAGCAGTGGT CCAGCCCTAC 2640
CCACTCCCAG TGTTCTCCCC TCGAGGAGGA CCCCAGCCGC TTCCTCCTGC CCCCACATCT 2700
GTGTCACCTG CTACCTTCCC TTCTCCCTTA GTGACCCCAA TGGTGGCCTT GGTGCTCCCT 2760
AACTATTTAT TCCCTTCCCC AACTAGTTAC CCATATGGGG TATCCCAGGC TCCTGTTGAG 2820
GGGCCACCTA CACCTGCTTC CCACTCACCT TCTCCATCCC TACCCCCACC ACCTCCCAGC 2880
CCCCCCCACC GCCCAGACTC CCCACTGTTC AACTCAAGAT GCAGTTCCCC ACTCCAGCTC 2940
AATCTGCTGC AGCTTGAGGA GTCCCCCCGC ACTGAAGGGG GTGCTGCTGC AGGAGGCCCC 3000
GGAAGTAGTG CTGGGCCCCT GCCTCCCAGT GAGGAGTCTG CTGAGCCAGA GCCCAGACTG 3060
GTGGAGGTCA CGGAGTCATC CAATCAGGAT GCACTTTCAG GCTCCAGTGA CCTGCTAGAG 3120
TTACTGCTCC AGGAGGACTC TCGCTCTGGC ACAGGCTCCG CAGCCTCGGG CTCCCTGGGC 3180
TCCGGCCTGG GCTCTGGGTC TGGTTCGGGA TCCCACGAAG GGGGAAGCAC CTCAGCCAGC 3240
ATCACTCGCA GCAGTCAGAG CAGCCATACA AGCAAGTACT TTGGCAGCAT CGACTCTTCA 3300
GAGGCTGAAG CTGGAGCTGC TCAGGCCAGG ACTGAGCCTG GGGACCAGGT CATTAAGTAT 3360
GTGCTCCAGG ATCCCATCTG GCTGCTCATG GCCAACGCTG ACCAGCATGT CATGATGACC 3420
TACCAGGTGC CGTCCAGGGA TGCAGCGTCT GTGCTGAAGC AAGACCGGGA GAGGCTCCGG 3480
GCCATGCAGA AACAACAGCC ACGGTTCTCA GAGGACCAGC GGCGGGAACT GGGTGCTGTG 3540
CACTCCTGGG TCCGGAAGGG CCAGCTGCCT CAGGCCCTCG ATGTAACGGC TTGTGTGGAC 3600
TGTGGTAGCA GTGTTCAAGA TCCTGGCCAC TCGGACGACC CTCTCTTCTC AGAACTGGAT 3660
GGATTGGGGC TGGAGCCTAT GGAAGAGGGT GGAGGCGAGG GAGGTGGTGT TGGCGGGGGT 3720
GGAGGTGGTG TTGGCGGGGG TGGGGGTGAT GGTGGTGAGG AGGCCCAGAC CCAAATTGGG 3780
ACTAAGGGCT CAAGCTCTCA GGACTCTGCC ATGGAGGAAG AAGAACAAGG TGGGAGCTCT 3840
TCCAGTCCAG CTTTACCTGC AGAAGAGAAT GGCACCAGCT AG 3882
Sequence Source Uniprot/ENA
Orthology
CGDB IDSpieces IdentityE-ValueScore
CGD-AiM-053758Ailuropoda melanoleuca68.74 0.00e+00 1191.4
CGD-AnC-055229Anolis carolinensis60.53 0.00e+00 885.2
CGD-AsM-064219Astyanax mexicanus48.94 0.00e+00 751.5
CGD-BoT-054337Bos taurus63.15 0.00e+00 1419.8
CGD-CaJ-048018Callithrix jacchus64.05 0.00e+00 1465.7
CGD-CaF-064770Canis familiaris62.62 0.00e+00 1406.7
CGD-CaP-029122Cavia porcellus61.85 0.00e+00 1379
CGD-ChS-031205Chlorocebus sabaeus63.47 0.00e+00 1464.1
CGD-DaR-072764Danio rerio43.69 0.00e+00 873.6
CGD-DaN-031719Dasypus novemcinctus63.53 0.00e+00 1459.1
CGD-DiO-053613Dipodomys ordii63.72 0.00e+00 1443.7
CGD-EqC-020994Equus caballus63.61 0.00e+00 1430.6
CGD-ErE-072203Erinaceus europaeus62.35 0.00e+00 1366.7
CGD-FeC-031667Felis catus61.78 0.00e+00 1366.3
CGD-GaA-028674Gasterosteus aculeatus42.28 0.00e+00 809.7
CGD-GoG-062877Gorilla gorilla64.78 0.00e+00 1506.5
CGD-HoS-021038Homo sapiens (Human)64.13 0.00e+00 1478.4
CGD-IcT-062043Ictidomys tridecemlineatus64.7 0.00e+00 1484.9
CGD-LaC-070172Latimeria chalumnae58.35 0.00e+00 765.4
CGD-LeO-065998Lepisosteus oculatus45.86 0.00e+00 1000
CGD-LoA-069322Loxodonta africana66.37 0.00e+00 1551.6
CGD-MaM-031836Macaca mulatta63.55 0.00e+00 1459.9
CGD-MaE-058204Macropus eugenii53.06 1.00e-139 495.4
CGD-MeL-041695Melampsora laricipopulina28.81 5.05e-01 31.96
CGD-MiM-059459Microcebus murinus78.83 0.00e+00 807.7
CGD-MoD-062809Monodelphis domestica61.48 0.00e+00 1393.6
CGD-MuM-031636Mus musculus (Mouse)68.61 0.00e+00 1569.3
CGD-MuA-071967Musa acuminata38.1 1.72e-01 34.65
CGD-MuP-028062Mustela putorius furo61.56 0.00e+00 1367.4
CGD-MyL-066363Myotis lucifugus65.36 0.00e+00 1515.4
CGD-NoL-039781Nomascus leucogenys64.7 0.00e+00 1480.7
CGD-OcP-070087Ochotona princeps62.29 0.00e+00 1389
CGD-OrN-042393Oreochromis niloticus51.56 0.00e+00 680.6
CGD-OrC-049700Oryctolagus cuniculus61.85 0.00e+00 1381.7
CGD-OrL-058700Oryzias latipes43.77 0.00e+00 906.7
CGD-OtG-066239Otolemur garnettii61.99 0.00e+00 1406.3
CGD-OvA-022197Ovis aries62.69 0.00e+00 1409
CGD-PaT-040966Pan troglodytes63.06 0.00e+00 1442.2
CGD-PaA-057182Papio anubis57.75 0.00e+00 890.6
CGD-PoA-067892Pongo abelii79.21 0.00e+00 730.3
CGD-PrC-056290Procavia capensis69.01 0.00e+00 1166
CGD-PtV-028552Pteropus vampyrus62.02 0.00e+00 1231.5
CGD-PuG-048338Puccinia graminis80 4.10e-02 33.11
CGD-PyT-028299Pyrenophora triticirepentis31.25 6.32e-01 31.96
CGD-SaH-069946Sarcophilus harrisii62.8 0.00e+00 1411.7
CGD-SoA-065078Sorex araneus68.44 0.00e+00 1597.4
CGD-SuS-066161Sus scrofa62.49 0.00e+00 1421.8
CGD-TaR-053643Takifugu rubripes45.31 0.00e+00 919.8
CGD-TaS-048703Tarsius syrichta60.11 0.00e+00 1328.5
CGD-TeN-071576Tetraodon nigroviridis47.7 0.00e+00 963.8
CGD-TuB-071737Tupaia belangeri81.67 0.00e+00 697.2
CGD-TuT-061692Tursiops truncatus74.97 0.00e+00 1179.9
CGD-XeT-049391Xenopus tropicalis53.67 0.00e+00 757.3
CGD-XiM-048808Xiphophorus maculatus45.06 0.00e+00 941.8
Keyword

KW-0090--Biological rhythms
KW-0181--Complete proteome
KW-0963--Cytoplasm
KW-0539--Nucleus
KW-0597--Phosphoprotein
KW-1185--Reference proteome
KW-0677--Repeat
KW-0804--Transcription
KW-0805--Transcription regulation
KW-0832--Ubl conjugation
Gene Ontology

GO:0005737--C:cytoplasm
GO:0005634--C:nucleus
GO:0031490--F:chromatin DNA binding
GO:0032922--P:circadian regulation of gene expression
GO:0097167--P:circadian regulation of translation
GO:0007623--P:circadian rhythm
GO:0043153--P:entrainment of circadian clock by photoperiod
GO:0070932--P:histone H3 deacetylation
GO:2000323--P:negative regulation of glucocorticoid receptor signaling pathway
GO:0043124--P:negative regulation of I-kappaB kinase/NF-kappaB signaling
GO:0046329--P:negative regulation of JNK cascade
GO:0000122--P:negative regulation of transcription from RNA polymerase II promoter
GO:0045892--P:negative regulation of transcription, DNA-templated
GO:0045944--P:positive regulation of transcription from RNA polymerase II promoter
GO:0010608--P:posttranscriptional regulation of gene expression
GO:0042752--P:regulation of circadian rhythm
GO:1900015--P:regulation of cytokine production involved in inflammatory response
GO:0042634--P:regulation of hair cycle
GO:1900744--P:regulation of p38MAPK cascade
GO:0002028--P:regulation of sodium ion transport
GO:0006351--P:transcription, DNA-templated
Interpro

IPR000014--PAS
IPR013655--PAS_fold_3
IPR022728--Period_circadian-like_C
PROSITE

PS50112--PAS
Pfam

PF08447--PAS_3
PF12114--Period_C
SMART

SM00091--PAS