Transcript Information: R_Transcript_106108.p1


Annotated TAIR IDAT4G31570.1
Annotated Gene NameCONTAINS InterPro DOMAIN/s: Prefoldin (InterPro:IPR009053); BEST Arabidopsis thaliana protein match is: unknown protein (TAIR:AT1G24460.1); Has 194354 Blast hits to 66887 proteins in 3244 species: Archae - 3688; Bacteria - 38556; Metazoa - 84828; Fungi - 17265; Plants - 10589; Viruses - 805; Other Eukaryotes - 38623 (source: NCBI BLink).
Annotated Gene Symbol(s)
Annotation TypeOrtholog
Chromosome Positionchr4:15297061-15306036 | Forward length=2730
E-Value0
Link to Arabidopsis eFP Browser 2.0


Transcripts Per Million


Condition 1: 0 Hour
Replicate 16.9974307003462
Replicate 24.4992072320639
Replicate 35.6309495534615
Condition 2: 8 Hour
Replicate 14.7166920700051
Replicate 26.3378487285427
Replicate 37.0068527318819
Condition 3: 24 Hour
Replicate 17.0303923349276
Replicate 25.5808519837099
Replicate 38.1413612798148


Fold Change




FASTA Sequences

Nucleotide Sequence

>R_Transcript_106108.p1 GENE.R_Transcript_106108~~R_Transcript_106108.p1 ORF type:complete len:2632 (+),score=815.38 R_Transcript_106108:391-8286(+)
ATGGACAAGAAATCCAACCGAACCGATCTTCTTGCTGCTGGCCGCAAAAAGCTTCAACAATATCGTCAGAAAAAGGATAATAAAGGCAAGGATGGAAAAGGCAGAGACAGCAAAGGGGGTGCTAGTGGTAGTAGTAGATCCACCAATAAGGCTGATAAGTCTGAACATAACGACGCTGATGCCAATGCTGCTATGAAAGTAGCAGAGCCATCAATGCTTCCTCAAGGGGAAGTTGAATCTACACCATCTCTTCCGGATCCTGTTGGAAATGTCGTAGATTCTACCATTGATGCCCAAAATGTTTTGGAGAATTCAGCTGCTACATCCACTGATTCCCAGAATGTTGATCAGATTGCCACCTCTGCTTCCTTGGATGTTGCTGAGCAAGTGCCAGTTATGGATCCTGTTTTAGTACAGTCTTCTTCTGGGAACCTTAAAACTGATACCCTTAATGAGGAGGTAGAGCTCAAGTCACATCTTCGTGAAGTTGAAGGGGTTGTGTCGTCTGGGTCTACTGAAATTGAGACTGTAAATGATGATGTTTTGACACCTACTCCTGCTGGAGCAGTGTACAGTTCTGAACCAGATGCCGCTCTTCCTGTTGAAGTGGAGGGTGCTCATGGGGGAGATCAGGTATCAGTTGTAGGGGCAATGCAGGAAGCTGACAATTTTGGCCCGAAGCACTTTGGTCAAAGTGTTCAGCAGGATCTGGATGGAGACAGTAGGCTTTCCATGCCAGCTTATCATGAGGGTTGTGAAACACCTGCAGCTTCTAATGACATAAGTGCCAAGTTGACATCGCCAGAACCTGACCGAAAACCTGATGTCTCGGACGTTGCAATCATTGCGTGTGATGAAGGTCATGAAACAATGGAGGCTTCTGTTCCTGTTGAGACGGCCAATGTAACTGCTGAATCAAGAACAGGCAGCAGTCACAAGCTGAATCAGCCACATGAAGATCGAATGGATGGATCATGTACAGAAAGAGAAGTTCATGTGCATTCCATGTCAAATGATTCCAGATGTTACAAAAATGAAGCAGATCCAGCTGATTTAGAGAGGAGAGATGATAAAGGGTCCGATGAGCATTGTTTACATGAAAACAAAATTGTAGATTCTGTTCTAGAGCAACCTGTGTGTGTTGGTTTACAAGGCAACTCTATAAACCTTCATCAGCTTGCTGAGTTACTAAAACAGCTTCCTGAAGGTGATTTCAGGTACTTGATCAAGTCAAGGGAAATGGTGGGTCATAGAGAAGATGTTGTGCTGCAAGATTGCACGATAGATGTTCCTGAAAGATTCCAAGAGCACCTTTATCTTTCAAATATTTCAAAAGATTTCTTTCACTTGCAACTTCAAGAGCAGCATGAGCAACAAGCTGATGTTGATCGTCAGCATGGTTCATTGGTTGGTGAAGTACCTGCAATCACTCCTTCACTTTCAGTTGTTCAGGAAGTTGATAATAGCGTTGCCACGGAGCTTTCTCAGTGTAAATTGGAGCTAGAGGCTGCTATGAGGGAGAGAGTGGAGCTTCATAGCTTGTATCAAAGTGCGAAGGAAGATGTTATGATATACTCTGCCAAAGTTGATGAGCTCCGGATCAAATTGGAGGAAACAGTGGGGCACCTGTCCAGTCTTTCTGCAGATCTCGTTAGCTGCAAGGTCCTTTTGGAAGCTTCACAGGATGAGAATGAAAAACTTTCAGAAGGTTTAGCATCAGTGACTGATCAGAGGAATGAATTCGAGGTGGCCATGGAACAATATGTTCATGAAAATAGAAAACTTTCAGGGGATTTGGCTGATAGTGGTATGCAGTTGGCTGCTCTACAGCAAGAAATAGGCAGTTTGAAAAGGAGTGTTGCTTCTGTAGAAGATGAGAGAAAAAAATTTGAGGAGGAAAAGGAAATCCTCGTTCGTGAGAAGGAGACACTTTTAGGTGATCTTTCGGATTGCAAGAGTGCAATGGGAGCTTTGCAGCAGGATTATGCTGCTGTAAATATGAATCTTGCAACAGTGACAGAAGAGCATAATAAGCTGAAGGAGCATGAGGTGTTTCTAACCCAGGAAACTGAGAGGCTTTCTGCTGAACTTGTTGCTGTCCAAGATAAGATGTCAGTACAACATCAGGAACATGTGCAGCTGCAGGCTGATCTGCAAGAAACAATGACACGCCTTGAACAATTGGCTGAGGAAAACATTATTTTACAGAGCAACTTGGAAATTCATAAAGCTAAGTTAGCTGAGGTTGATAGCCAACAAATCCAGCTTTCTTTAGTGGCCGGGAGTGTCAGTAGTGAAGCCAAGTCTCATAGTGGTGCAGCTGATATTGATAGTTCTATCAGAATATCCAAGGAGGAAGATGAGTATATGGTCTCGTCTGTCGGGCCTGCTTCTGATGACACCTCTCAGAGCACCGCACTTCGTCAATCTGGGTTGGATTTGCATGATGATACTTCCACTGCTGTAAGACTGAAAGGGTATTTGGAGGAGGCTGAGAAAATGATTCAGATAATTGAGAAGTTGATGGACGGGATGCACTTTCAGTCAACATCCCTTAGTCCGTTGGCTGGGAAAGGTGCTGCTCCAGGAGTATCAAAACTGATTCAAGCTTTTGAGTCAAAAGCTAATATTGATGACCATGATTCCAGCGAAAGTCTGCTGCCTTCTGATCCATATTCGTCTGCAAAGGAGCAAATTAGTCACTTGAGAGCTGTGCTTAAGGCACTGACACAGAATGTTGACCATGCTCAAGCTGTTATCATGGAAGAAAAAGATGGACGTAAAGCTGATATTGTCGCCTGTAGGGAGCTTGAGGTTGAAATTGAAGCTCTGAAGGGCTTCAACAATAACCTAGAAATGAGGAATATTGAGCTAGAGGTACTTTGTGGAGCTATGAATCAGCATGTACTTGATATTGAAGTAAAGAAAACGAGGCTTGAAGATCTTTGTGAAGCTTTACAGATACAGGAGGCAGGTCTTCAGTCACAAAACATTGAGCTTCTGAAGAAGTTGAATGACTTCCAATCCAGAATTAGTGGGTTTGAGGTTCAGCTAAATGGGGTACGAAGCAGCTCAGATGTGGTGGCATCTGTGATATGTGATGAAGTTACAACTATGCAAAGGGAAATCAGGGAGGATATTTATGCTGTTCATAGACGATGGAAAGCTGCTGTTGCTGAGCTTGTTCCGTATGTCGAGAAGCTTGATGCAGTTGTTGGATCTGCTTCTAGCCACCCTGACCATGGTGAGACTCACAATGACGGGGATACAGAGGTTGATTTTGTTGAAGCACCTGCATCACATCTCCAGTCTTCAGTTTTGTTACTTATTCAAAGATACAAGGAGGCAGAAGGGCGGGCCAGCTTATTAGATAATGATCTTAAATCTAGGATGACTGACTTTGGGGAGCTGCAGGGCCGTGTTGAGGTGCTTGATTCTATAAATTTTCAGCAGCAGAATGAGATTCTTGTCCTCAGGGAGAGCTTGACACACGCAAAGGATACCTTTGATGCCATACACGTTGAGTTGCTGGAGAAAACTCGGGAACTTGAGCAGTCTGAGCAGAGGGTTTCTTCTGTTAGAGAAAAACTCAGTATTGCTGTTGCAAAGGGCAAGGGCTTGGTTGTGCAACGTGACACTCTTAAGCAGTCACTGGCCGAGATGTCAGGCGAACTGGAGAAATGCACACAGGAATTGCGATTGAAAGATTCTAGGCTATATGAAGTGGAAGAGAAACTGAAGGCCTATTCAGAGGCTGGTGAACGGATGGAAGCTCTGGAGTCGGAGTTATCATACATTCGTAACTCTGCAACAGCTCTCAGAGAGTCATTTCTTCTGAAAGATTCTGCTCTTCAGAGAATAGAAGAGATTCTAGAAGATCTTGAGCTGCCAGATCATTTTCATTCCAAGGACATCATACAGAAGGTTGACTGGCTGGCAAAGTCAGTTGCTAGTAATTCTTTGCCACCTGCTGACTGGGATCAAAGAAGTTCCGTTGGAGGAGGCTCATACTCAGATGCTGGTTTAGTCATGACAGATGGGTCCAAGGAAGATGTCCCACCTACCTCAAATCCTGTTGACGATTTGAGAAGAAAATATGATGAGCTGCAGACTAAGTTCTATGAATTGGCTGAACAAAATGACATGCTGGAGCAATCATTAATGGAAAGAAACATTTTGGTGCAGAGGTGGGAGGAGATTTTGGATAGGATCAATACACCTCCCCAAATACGATCGATGGAGCCGGAAGAGAGGATTCATTGGTTAGGAACTGCCTTGTCGGAGGCTGACCACCACATGAGATCACTTCAGCAGAAAGTTGAAACCCTTGAAAACTATTGTGGGTCACTCTCAGGGGATCTGGAAGTATCTCAAAGAAGAATGGCAGAACATGAATCAACTCTCCACACCCTTCTTCATGAGAAGGAAAGTGCCTTGTCAGATGCTGAGGACCAGTTGAAGTCTCTTCAGCAGAGGATTGGTAATCTTGATGATCATTGTGGATCCCTGTCCTCTGCTTTGGAAGAATCTCAAAGAAGGATATCTGAACATGAATACTCTTTGCGAGAAGTTCTTCATGAAAAGGACATTCTTTCCAGTAATTTGGTGACAATGACTACTGATTGCGAAATAGCCTTGAATACAGTTGCTCAATATGAGCAAGAAATTAATAGATTAAAGGAAGATGTTGACATGTTGCAGGAAAAACTAGTAGAGAATCTTGGAAACAAGGACCATATTGACCAAATTGAGAGTGAGTTGAAGAGATTACAGCACTTGATTCTTGATGTACTCCAGGTCTCTGAGACAGAAGATGTGTCTTCTGACGAGAGTAATATTCAGCACCTGGAAAGGTTGATTAGACTACTCAGGAATCATATCAACGGAGTTCGTGCTGAAAGCCATGGGCTGAGGGAAGTAGTTGACAATGACGTGTCTAACAAGACTGCGGAGGCACGAATTGTGACAGAGACAGAAAATGAGCATCTGTCTGATGCAAATCAGGATGAGCCTAATATGAGGAGCACAATCTCTGAGGAGCAGGTTGTGACAGACCTGAGAAGACAACTTGCTGAGGCTTTAGATGAAGTAGTCCATCTTAGGGAGGAAAAAGATGCTTACATGCAGAAAATTCAATCTTTGGCTAGTGAGGTGGAAGCATTAGAGAGTAACATGAAGGAATTTCAGGAGTTGCTTAATCAAGAGGAGCAGAAGTCAGCATCTCTTCGGGAGAAGCTGAATCTTGCAGTTAGGAAAGGCAAATCATTGGTCCAACAGAGAGATAGTCTAAAACAGAATATTGAGGACATGACCAGTGAGATTGATCGATTGAAATCTGAGATAAATAGTCAGGAGCAGTCTCTTTTGGACTCAGTACAGAAGATAAATGACTTGTCCTTCCAGATGGAAATATATAAAGCATTTGAAACTGAGAACATGTCCCTGAAAACCCGCCTGATTGAGGCTGAGCAACATTTACAGCAAAATGGCCATACTTTGAGCATGGTGCTCAATAAACTAAGTGACGTTGATACTGGTGGGGAGATTAGTTCTCATGATCCACTGCAGAAGTTGGAAGAAATTGGGAAGTTGTGCGCTGATCTACATGCTGCTGCAACATCTTCTGAGAAGGAAGCAAACAAATCCAAAAAGGCAGCTGAGCTTCTAGTGGCTGAGTTGAATGAGGTTCAGGAAAGAAATGATGTTCTGCAGGAAGAAGTATCCAGGGCCTATGATGAGATGTCAAGACTTTCAAGGGAAAGGGAACTTGCAGATTCAGCCAAAGTTGAAGCTCTTTCACATTTGGCTAAACTTTCTGAAGAGAGGAAAAAGCACCTTGCTGAATTTGAGAGGTTGAATACCTGTGTGCATGAATTGAAGAAAGGCTTCATTGAGATCAATACAGTAACTGGTGATGTGTTTGCCAAGGATATACAGCTTCTGCTCAGTGTGAGGACCCATATGGAGTCATGCCTAGGGCAGATTGGAATGAACTTCGTAGCCACCAAAGATTATGTTGTATCCAAGGATATCCGGTCTACACGTTCACTGTGGGACAATGTGTTGCCTGATCAACTGGCTGAGGATGTTGGATTTGAGCAGTATCTGCAAAGACTACTGGAAGCATTTGGTGCCTTTAAGCAGAGAGTAAACAGCCACTCAATGTCATTCAATAAGGAGGCTGAGCATTTCAACAATGTGATTAACACTGTGCTAATGGAAATCACCTCTCGGAGAGATTCCTTGGAATCCATCAAGGGTGATTGTATTCGTCTCGAATCAACTTTGAAAGAGAAAGATATGGAAGGAGTTGTGATGCGTAGAAGCATATCTTTGCTTTGTGAAGCATGCACTAGCTCAGTTATTGAGATTGAAAATAGGAAATCCCAATTGCTTGGTGACAATTTTTCTGATGGAGATCTGAGAATCAACTTACCATCTCTGCCGTCAACTGATGGACCTTACTTTAGTGGTGTCAATCTTTCAGCTTCTGAGGATTGTGTAAAGACACTGGCAGATAGGCTGTTGTTGGCTGTAAACAATTTTGTCAATGTTCAAATGGAGAGTGTAGAAGGTCATAGTAAAGAAATGAGAAGTACCATTCTTAATTTGCAGAAGGAACTTCAAGAAAAGGATATCCAAAGGGAGCGAATATCTATGGAACTTGTAAGTCAAATCAAGGAAGCTGAGGCCACCGCAGCGCGTTATTCCCGAGATCTTCAATCATTTAAGAATTATGTCCAAGAGTTGGAGAGCAAGCTGGAAGCAATGGGCACGGAACGGAACTTGTTGGAACAGAGAGTAGCGGAGCTACAACAAGAACATGTAAGCTCATTAGAGTCAAGGGAGAAGGTTAATTCACTGACTAGTTTGCTGACTGCCAAGGAACATGAAATCGAGGCTCTGATGCAAGCACTTGATGAAGAGGAGAATCAGACGGAAGCCTTAAGAAATAAGATTGAGGTTTTACACAAAGAAGTGGAGCAGAAGAATATCGATTTAGAGCACAAAGAAGCTTCTCGTGCTAAGGCTGTCAAAAAGCTCTCTGTTACTGTGAGCAAGTTTGATGAGCTGCACCAGATGTCTGAAGGTCTTCTTTCTGAAATTGAAAATCTTCAATCTCAGCTGCAGGATCGTGATGCAGAAATTTCCTTCTTAAGGCAAGAGGTCACTAGATGCACAAATGATGTTTTAGAAGCTACAAGAAAGGCGAAAGAACGGACTTCTGGTGAACTTCATGAGTTTTTGACGTGGTTGGACACAATGTTTTCTCATGTTCTGATGCGTGATGCCCATGGTGGTGATGAAATTGCTACTCATGATCATGAATACAAGGAAAATCTCCAGAAGGACATAACGTCCATAATATCAGAATTGGAAGACTTGCGAGTTGCTACACAAAGAAAGGATACCTTGTTACAAGCGGAAAGGAATAAGGTGGAAGAGCTGTCACGCAGTATGGAGGCTCTGGAGGTATCCCTGCAAGAAAAAGAGATTCATCTGAGTTCACTTCAAGATGTTGGGGATTCTGGACTAGGAACCTCAGAAATTGTGGAAGTTGAACCAGTGTTGAACAAATGGACTGCACCAGTGACTTCTTCTGCTTCTCAAGTGCGAAGTTTACGCAAAGTGAACAATGAACAAGTTTCAATAGCCATTGACCAAGATGCTGGGAGTTCTGATAGATTTGAGGATGAGGATGATGATAAAGTTCATGGTTTCAGGTCACTTACAACATCAAGGTTTGTCCCAAAGTTCACAAGACCTGTCGGTGACATGATTGATGGCCTATGGGTTTCCTGTGACCGAACACTAATGCGTCAACCTGCTTTTCGGCTTGGCATCATGATTTATTGGGCTCTGTTGCATGCACTTCTTGCTTCATTCATAGTTTGA

Click here to download the sequence:
Link to NCBI Nucleotide BLAST

Protein Sequence

>R_Transcript_106108.p1 GENE.R_Transcript_106108~~R_Transcript_106108.p1 ORF type:complete len:2632 (+),score=815.38 R_Transcript_106108:391-8286(+)
MDKKSNRTDLLAAGRKKLQQYRQKKDNKGKDGKGRDSKGGASGSSRSTNKADKSEHNDADANAAMKVAEPSMLPQGEVESTPSLPDPVGNVVDSTIDAQNVLENSAATSTDSQNVDQIATSASLDVAEQVPVMDPVLVQSSSGNLKTDTLNEEVELKSHLREVEGVVSSGSTEIETVNDDVLTPTPAGAVYSSEPDAALPVEVEGAHGGDQVSVVGAMQEADNFGPKHFGQSVQQDLDGDSRLSMPAYHEGCETPAASNDISAKLTSPEPDRKPDVSDVAIIACDEGHETMEASVPVETANVTAESRTGSSHKLNQPHEDRMDGSCTEREVHVHSMSNDSRCYKNEADPADLERRDDKGSDEHCLHENKIVDSVLEQPVCVGLQGNSINLHQLAELLKQLPEGDFRYLIKSREMVGHREDVVLQDCTIDVPERFQEHLYLSNISKDFFHLQLQEQHEQQADVDRQHGSLVGEVPAITPSLSVVQEVDNSVATELSQCKLELEAAMRERVELHSLYQSAKEDVMIYSAKVDELRIKLEETVGHLSSLSADLVSCKVLLEASQDENEKLSEGLASVTDQRNEFEVAMEQYVHENRKLSGDLADSGMQLAALQQEIGSLKRSVASVEDERKKFEEEKEILVREKETLLGDLSDCKSAMGALQQDYAAVNMNLATVTEEHNKLKEHEVFLTQETERLSAELVAVQDKMSVQHQEHVQLQADLQETMTRLEQLAEENIILQSNLEIHKAKLAEVDSQQIQLSLVAGSVSSEAKSHSGAADIDSSIRISKEEDEYMVSSVGPASDDTSQSTALRQSGLDLHDDTSTAVRLKGYLEEAEKMIQIIEKLMDGMHFQSTSLSPLAGKGAAPGVSKLIQAFESKANIDDHDSSESLLPSDPYSSAKEQISHLRAVLKALTQNVDHAQAVIMEEKDGRKADIVACRELEVEIEALKGFNNNLEMRNIELEVLCGAMNQHVLDIEVKKTRLEDLCEALQIQEAGLQSQNIELLKKLNDFQSRISGFEVQLNGVRSSSDVVASVICDEVTTMQREIREDIYAVHRRWKAAVAELVPYVEKLDAVVGSASSHPDHGETHNDGDTEVDFVEAPASHLQSSVLLLIQRYKEAEGRASLLDNDLKSRMTDFGELQGRVEVLDSINFQQQNEILVLRESLTHAKDTFDAIHVELLEKTRELEQSEQRVSSVREKLSIAVAKGKGLVVQRDTLKQSLAEMSGELEKCTQELRLKDSRLYEVEEKLKAYSEAGERMEALESELSYIRNSATALRESFLLKDSALQRIEEILEDLELPDHFHSKDIIQKVDWLAKSVASNSLPPADWDQRSSVGGGSYSDAGLVMTDGSKEDVPPTSNPVDDLRRKYDELQTKFYELAEQNDMLEQSLMERNILVQRWEEILDRINTPPQIRSMEPEERIHWLGTALSEADHHMRSLQQKVETLENYCGSLSGDLEVSQRRMAEHESTLHTLLHEKESALSDAEDQLKSLQQRIGNLDDHCGSLSSALEESQRRISEHEYSLREVLHEKDILSSNLVTMTTDCEIALNTVAQYEQEINRLKEDVDMLQEKLVENLGNKDHIDQIESELKRLQHLILDVLQVSETEDVSSDESNIQHLERLIRLLRNHINGVRAESHGLREVVDNDVSNKTAEARIVTETENEHLSDANQDEPNMRSTISEEQVVTDLRRQLAEALDEVVHLREEKDAYMQKIQSLASEVEALESNMKEFQELLNQEEQKSASLREKLNLAVRKGKSLVQQRDSLKQNIEDMTSEIDRLKSEINSQEQSLLDSVQKINDLSFQMEIYKAFETENMSLKTRLIEAEQHLQQNGHTLSMVLNKLSDVDTGGEISSHDPLQKLEEIGKLCADLHAAATSSEKEANKSKKAAELLVAELNEVQERNDVLQEEVSRAYDEMSRLSRERELADSAKVEALSHLAKLSEERKKHLAEFERLNTCVHELKKGFIEINTVTGDVFAKDIQLLLSVRTHMESCLGQIGMNFVATKDYVVSKDIRSTRSLWDNVLPDQLAEDVGFEQYLQRLLEAFGAFKQRVNSHSMSFNKEAEHFNNVINTVLMEITSRRDSLESIKGDCIRLESTLKEKDMEGVVMRRSISLLCEACTSSVIEIENRKSQLLGDNFSDGDLRINLPSLPSTDGPYFSGVNLSASEDCVKTLADRLLLAVNNFVNVQMESVEGHSKEMRSTILNLQKELQEKDIQRERISMELVSQIKEAEATAARYSRDLQSFKNYVQELESKLEAMGTERNLLEQRVAELQQEHVSSLESREKVNSLTSLLTAKEHEIEALMQALDEEENQTEALRNKIEVLHKEVEQKNIDLEHKEASRAKAVKKLSVTVSKFDELHQMSEGLLSEIENLQSQLQDRDAEISFLRQEVTRCTNDVLEATRKAKERTSGELHEFLTWLDTMFSHVLMRDAHGGDEIATHDHEYKENLQKDITSIISELEDLRVATQRKDTLLQAERNKVEELSRSMEALEVSLQEKEIHLSSLQDVGDSGLGTSEIVEVEPVLNKWTAPVTSSASQVRSLRKVNNEQVSIAIDQDAGSSDRFEDEDDDKVHGFRSLTTSRFVPKFTRPVGDMIDGLWVSCDRTLMRQPAFRLGIMIYWALLHALLASFIV*

Click here to download the sequence:
Link to NCBI Protein BLAST