Difference between revisions of "Gene:EF1A"

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=='''''Synonymous Genes'''''==
 
=='''''Synonymous Genes'''''==
 +
* EF1A <=> EF1a, EF1b, EF1A, EF1α, EF1-α, EF-1α
  
=='''''Experimental Validated ICGs'''''==
+
=='''''Applicable Species'''''==
 
{|class="wikitable sortable" style="font-size:10pt; width:100%"
 
{|class="wikitable sortable" style="font-size:10pt; width:100%"
 
|-
 
|-
Line 17: Line 18:
 
*[https://www.ncbi.nlm.nih.gov/pubmed/26179072 Selection of reference genes for quantitative real-time PCR normalization in creeping bentgrass involved in four abiotic stresses]
 
*[https://www.ncbi.nlm.nih.gov/pubmed/26179072 Selection of reference genes for quantitative real-time PCR normalization in creeping bentgrass involved in four abiotic stresses]
 
|align="center"|2015
 
|align="center"|2015
|-
 
|align="center"|[[Ammopiptanthus mongolicus]]
 
|align="center"|Elongation factor 1-alpha
 
||
 
*''Abiotic Stresses''
 
||
 
*[https://www.ncbi.nlm.nih.gov/pubmed/22451089 Reference gene selection for qPCR in Ammopiptanthus mongolicus under abiotic stresses and expression analysis of seven ROS-scavenging enzyme genes]
 
|align="center"|2012
 
 
|-
 
|-
 
|align="center"|[[Anastrepha obliqua]]
 
|align="center"|[[Anastrepha obliqua]]
Line 75: Line 68:
 
|-
 
|-
 
|align="center"|[[Brachiaria brizantha]]
 
|align="center"|[[Brachiaria brizantha]]
|align="center"|Eukaryotic initiation factor 4A
+
|align="center"|Elongation factor-1 alpha
 
||
 
||
 
*''Different Sex & Tissues''
 
*''Different Sex & Tissues''
Line 171: Line 164:
 
|-
 
|-
 
|align="center"|[[Craterostigma plantagineum]]
 
|align="center"|[[Craterostigma plantagineum]]
|align="center"|Eukaryotic initiation factor 5A, Elongation factor 1-alpha
+
|align="center"| Elongation factor 1-alpha
 
||
 
||
 
*''Different Tissues''
 
*''Different Tissues''
Line 329: Line 322:
 
*[https://www.ncbi.nlm.nih.gov/pubmed/19114010 Genomic selection of reference genes for real-time PCR in human myocardium]
 
*[https://www.ncbi.nlm.nih.gov/pubmed/19114010 Genomic selection of reference genes for real-time PCR in human myocardium]
 
|align="center"|2008
 
|align="center"|2008
 +
|-
 +
|align="center"|[[Homo sapiens]]
 +
|align="center"|Elongation factor 1-alpha 1
 +
||
 +
*''Breast Cancer''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/23876162 High-throughput identification of reference genes for research and clinical RT-qPCR analysis of breast cancer samples]
 +
|align="center"|2013
 
|-
 
|-
 
|align="center"|[[Hyriopsis cumingii]]
 
|align="center"|[[Hyriopsis cumingii]]
Line 363: Line 364:
 
|-
 
|-
 
|align="center"|[[Litsea cubeba]]
 
|align="center"|[[Litsea cubeba]]
|align="center"|Elongation factor 1-alpha, Eukaryotic initiation factor 4-alpha  
+
|align="center"|Elongation factor 1-alpha
 
||
 
||
 
*''Different Developmental Stages & Tissues''
 
*''Different Developmental Stages & Tissues''
Line 443: Line 444:
 
|-
 
|-
 
|align="center"|[[Panicum virgatum]]
 
|align="center"|[[Panicum virgatum]]
|align="center"|Elongation factor 1a, Eukaryotic initiation factor 4a
+
|align="center"|Elongation factor 1a
 
||
 
||
 
*''Different Tissues & Abiotic Stress''
 
*''Different Tissues & Abiotic Stress''
Line 467: Line 468:
 
|-
 
|-
 
|align="center"|[[Pennisetum glaucum]]
 
|align="center"|[[Pennisetum glaucum]]
|align="center"|Elongation factor 1 subunit alpha, Eukaryotic initiation factor 4A
+
|align="center"|Elongation factor 1 subunit alpha
 
||
 
||
 
*''Different Tissues & Genotypes''
 
*''Different Tissues & Genotypes''
Line 507: Line 508:
 
|-
 
|-
 
|align="center"|[[Pyropia yezoensis]]
 
|align="center"|[[Pyropia yezoensis]]
|align="center"|Elongation factor 1-α, Translation initiation factor 4A
+
|align="center"|Elongation factor 1-α
 
||
 
||
 
*''Different Developmental Stages & Abiotic Stress''
 
*''Different Developmental Stages & Abiotic Stress''
Line 523: Line 524:
 
|-
 
|-
 
|align="center"|[[Salmo salar]]
 
|align="center"|[[Salmo salar]]
|align="center"|Elongation factor 1A A, Elongation factor 1A B  
+
|align="center"|Elongation factor 1A A
 +
||
 +
*''Different Tissues & Smoltification Process''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/16293192 Evaluation of potential reference genes in real-time RT-PCR studies of Atlantic salmon]
 +
|align="center"|2005
 +
|-
 +
|align="center"|[[Salmo salar]]
 +
|align="center"|Elongation factor 1A B  
 
||
 
||
 
*''Different Tissues & Smoltification Process''
 
*''Different Tissues & Smoltification Process''
Line 557: Line 566:
 
|align="center"|Elongation factor 1-a  
 
|align="center"|Elongation factor 1-a  
 
||
 
||
*''Elongation factor 1-a ''
+
*''Cold Stress''
 
||
 
||
 
*[https://link.springer.com/article/10.1007/s11032-012-9766-z Selection of housekeeping genes for qRT-PCR analysis in potato tubers under cold stress]
 
*[https://link.springer.com/article/10.1007/s11032-012-9766-z Selection of housekeeping genes for qRT-PCR analysis in potato tubers under cold stress]
Line 641: Line 650:
 
*[https://www.ncbi.nlm.nih.gov/pubmed/26793228 Validation of Suitable Reference Genes for Quantitative Gene Expression Analysis in Panax ginseng]
 
*[https://www.ncbi.nlm.nih.gov/pubmed/26793228 Validation of Suitable Reference Genes for Quantitative Gene Expression Analysis in Panax ginseng]
 
|align="center"|2015
 
|align="center"|2015
 +
|-
 +
|align="center"|[[Corynebacterium pseudotuberculosis]]
 +
|align="center"|Elongation factor P
 +
||
 +
*''Abiotic Stress''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/25017489 Reference genes for RT-qPCR studies in Corynebacterium pseudotuberculosis identified through analysis of RNA-seq data]
 +
|align="center"|2014
 +
|-
 +
|align="center"|[[Glycine max]]
 +
|align="center"|Eukaryotic elongation factor 1 beta
 +
||
 +
*''Different Tissues & Abiotic Stress''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/23029532 Evaluation of candidate reference genes for normalization of quantitative RT-PCR in soybean tissues under various abiotic stress conditions]
 +
|align="center"|2012
 +
|-
 +
|align="center"|[[Glycine max]]
 +
|align="center"|Elongation factor 1-beta
 +
||
 +
*''Hypoxic Condition''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/24615050 Reference genes for quantitative real-time polymerase chain reaction studies in soybean plants under hypoxic conditions]
 +
|align="center"|2014
 +
|-
 +
|align="center"|[[Panonychus citri]]
 +
|align="center"|Elongation factor-1 alpha
 +
||
 +
*''Different Developmental Stages & Abiotic Stress''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/22203483 Evaluation of suitable reference genes for quantitative RT-PCR during development and abiotic stress in Panonychus citri (McGregor)(Acari: Tetranychidae)]
 +
|align="center"|2012
 +
|-
 +
|align="center"|[[Raphanus sativus]]
 +
|align="center"|Translation elongation factor 2
 +
||
 +
*''Different Tissues & Cultivars & Developmental Stages''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/22771808 Evaluation of reference genes for gene expression studies in radish (Raphanus sativus L.) using quantitative real-time PCR]
 +
|align="center"|2012
 +
|-
 +
|align="center"|[[Sesamia inferens]]
 +
|align="center"|Elongation factor 1
 +
||
 +
*''Different Tissues & Developmental Stages''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/25585250 Exploring valid reference genes for quantitative real-time PCR analysis in Sesamia inferens (Lepidoptera: Noctuidae)]
 +
|align="center"|2015
 +
|-
 +
|align="center"|[[Spodoptera exigua]]
 +
|align="center"|Elongation factor 2
 +
||
 +
*''Different Developmental Stages & Tissues''
 +
||
 +
*[https://www.ncbi.nlm.nih.gov/pubmed/24454743 Selection and evaluation of reference genes for expression analysis using qRT-PCR in the beet armyworm Spodoptera exigua (Hubner) (Lepidoptera: Noctuidae)]
 +
|align="center"|2014
 
|}
 
|}
 +
 +
=='''Featured Sequence'''==
 +
{{DNA|
 +
DNA = <dnaseqindica>CTTTTTCGCAACGGGTTTGCCGCCAGAACACAGGTGTCGTGAAAACTACCCCTAAAAGCCAAAATGGGAA
 +
AGGAAAAGACTCATATCAACATTGTCGTCATTGGACACGTAGATTCGGGCAAGTCCACCACTACTGGCCA
 +
TCTGATCTATAAATGCGGTGGCATCGACAAAAGAACCATTGAAAAATTTGAGAAGGAGGCTGCTGAGATG
 +
GGAAAGGGCTCCTTCAAGTATGCCTGGGTCTTGGATAAACTGAAAGCTGAGCGTGAACGTGGTATCACCA
 +
TTGATATCTCCTTGTGGAAATTTGAGACCAGCAAGTACTATGTGACTATCATTGATGCCCCAGGACACAG
 +
AGACTTTATCAAAAACATGATTACAGGGACATCTCAGGCTGACTGTGCTGTCCTGATTGTTGCTGCTGGT
 +
GTTGGTGAATTTGAAGCTGGTATCTCCAAGAATGGGCAGACCCGAGAGCATGCCCTTCTGGCTTACACAC
 +
TGGGTGTGAAACAACTAATTGTCGGTGTTAACAAAATGGATTCCACTGAGCCACCCTACAGCCAGAAGAG
 +
ATATGAGGAAATTGTTAAGGAAGTCAGCACTTACATTAAGAAAATTGGCTACAACCCCGACACAGTAGCA
 +
TTTGTGCCAATTTCTGGTTGGAATGGTGACAACATGCTGGAGCCAAGTGCTAACATGCCTTGGTTCAAGG
 +
GATGGAAAGTCACCCGTAAGGATGGCAATGCCAGTGGAACCACGCTGCTTGAGGCTCTGGACTGCATCCT
 +
ACCACCAACTCGTCCAACTGACAAGCCCTTGCGCCTGCCTCTCCAGGATGTCTACAAAATTGGTGGTATT
 +
GGTACTGTTCCTGTTGGCCGAGTGGAGACTGGTGTTCTCAAACCCGGTATGGTGGTCACCTTTGCTCCAG
 +
TCAACGTTACAACGGAAGTAAAATCTGTCGAAATGCACCATGAAGCTTTGAGTGAAGCTCTTCCTGGGGA
 +
CAATGTGGGCTTCAATGTCAAGAATGTGTCTGTCAAGGATGTTCGTCGTGGCAACGTTGCTGGTGACAGC
 +
AAAAATGACCCACCAATGGAAGCAGCTGGCTTCACTGCTCAGGTGATTATCCTGAACCATCCAGGCCAAA
 +
TAAGCGCCGGCTATGCCCCTGTATTGGATTGCCACACGGCTCACATTGCATGCAAGTTTGCTGAGCTGAA
 +
GGAAAAGATTGATCGCCGTTCTGGTAAAAAGCTGGAAGATGGCCCTAAATTCTTGAAGTCTGGTGATGCT
 +
GCCATTGTTGATATGGTTCCTGGCAAGCCCATGTGTGTTGAGAGCTTCTCAGACTATCCACCTTTGGGTC
 +
GCTTTGCTGTTCGTGATATGAGACAGACAGTTGCGGTGGGTGTCATCAAAGCAGTGGACAAGAAGGCTGC
 +
TGGAGCTGGCAAGGTCACCAAGTCTGCCCAGAAAGCTCAGAAGGCTAAATGAATATTATCCCTAATACCT
 +
GCCACCCCACTCTTAATCAGTGGTGGAAGAACGGTCTCAGAACTGTTTGTTTCAATTGGCCATTTAAGTT
 +
TAGTAGTAAAAGACTGGTTAATGATAACAATGCATCGTAAAACCTTCAGAAGGAAAGGAGAATGTTTTGT
 +
GGACCACTTTGGTTTTCTTTTTTGCGTGTGGCAGTTTTAAGTTATTAGTTTTTAAAATCAGTACTTTTTA
 +
ATGGAAACAACTTGACCAAAAATTTGTCACAGAATTTTGAGACCCATTAAAAAAGTTAAATGAGAAACCT
 +
GTGTGTTCCTTTGGTCAACACCGAGACATTTAGGTGAAAGACATCTAATTCTGGTTTTACGAATCTGGAA
 +
ACTTCTTGAAAATGTAATTCTTGAGTTAACACTTCTGGGTGGAGAATAGGGTTGTTTTCCCCCCACATAA
 +
TTGGAAGGGGAAGGAATATCATTTAAAGCTATGGGAGGGTTGCTTTGATTACAACACTGGAGAGAAATGC
 +
AGCATGTTGCTGATTGCCTGTCACTAAAACAGGCCAAAAACTGAGTCCTTGTGTTGCATAGAAAGCTTCA
 +
TGTTGCTAAACCAATGTTAAGTGAATCTTTGGAAACAAAATGTTTCCAAATTACTGGGATGTGCATGTTG
 +
AAACGTGGGTTAAAATGACTGGGCAGTGAAAGTTGACTATTTGCCATGACATAAGAAATAAGTGTAGTGG
 +
CTAGTGTACACCCTATGAGTGGAAGGGTCCATTTTGAAGTCAGTGGAGTAAGCTTTATGCCAGTTTGATG
 +
GTTTCACAAGTTCTATTGAGTGCTATTCAGAATAGGAACAAGGTTCTAATAGAAAAAGATGGCAATTTGA
 +
AGTAGCTATAAAATTAGACTAATCTACATTGCTTTTCTCCTGCAGAGTCTAATACCTTTTATGCTTTGAT
 +
AATTAGCAGTTTGTCTACTTGGTCACTAGGAATGAAACTACATGGTAATAGGCTTAACAGGTGTAATAGC
 +
CCACTTACTCCTGAATCTTTAAGCATTTGTGCATTTGAAAAATGCTTTTCGCGATCTTCCTGCTGGGATT
 +
ACAGGCATGAGCCACTGTGCCTGACCTCCCATATGTAAAAGTGTCTAAAGGTTTTTTTTTGGTTATAAAA
 +
GGAAAATTTTTGCTTAAGTTTGAAGGATAGGTAAAATTAAAGGACATGCTTTCTGTTTGTGTGATGGTTT
 +
TTAAAAATTTTTTTTAAGATGGAGTTCTTGTTGCCCAGGCTAGAATGCAATGGCAAAATCTCACTGCAAT
 +
CTCCTCCTCCTGGGTTCAAGCAATTCTCCTACTTCAGCCTCCCAAGTAGCTGGGATTACAGGCATGTGCT
 +
AATTTGGTGTTTTTAATAGAGATGAGGTTTTTCCATGTTGGTCAGGCTGGTCTCAAACTCCTGACCTTAG
 +
GTGATCGCCTCGGCCTCCTAAAGTGCTGGAATTACAGGCATGAGCCACCATGCCTGGCCAGGACATGTGT
 +
TCTTAAGGACATGCTAAGCAGGAGTTAAAGCAGCCCAAGAGATAAGGCCTCTTAAAGTGACTGGCAATGT
 +
GTATTGCTCAAGATTCAAAGGTACTTGAATTGGCCATAGACAAGTCTGTAATGAAGTGTTATCGTTTTCC
 +
CTCATCTGAGTCTGAATTAGATAAAATGCCTTCCCATCAGCCAGTGCTCTGAGGTATCAAGTCTAAATTG
 +
AACTAGAGATTTTTGTCCTTAGTTTCTTTGCTATCTAATGTTTACACAAGTAAATAGTCTAAGATTTGCT
 +
GGATGACAGAAAAAACAGGTAAGGCCTTTAATAGATGGCCAATAGATGCCCTGATAATGAAAGTTGACAC
 +
CTGTAAGATTTACCAGTAGAGAATTCTTGACATGCAAGGAAGCAAGATTTAACTGAAAAATTGTTCCCAC
 +
TGGAAGCAGGAATGAGTCAGTTTACTTGCATATACTGAGATTGAGATTAACTTCCTGTGAAACCCAGTGT
 +
CTTAGACAACTGTGGCTTGAGCACCACCTGCTGGTATTCATTACAAACTTGCTCACTACAATAAATGAAT
 +
TTTAAGCTTTAAAAAAAAAAAAAAAAAA</dnaseqindica>|
 +
SOURCE = '''''Homo sapiens''''' EF1α|
 +
 +
}}
 +
 +
=='''Conserved Domains '''==
 +
{{Str|
 +
SOURCE = '''''Homo sapiens''''' EF1α|
 +
Str= [[File:Human_EF1A.png|center|770px|link=http://icg.big.ac.cn/index.php/Gene:EF1A]]|
 +
 +
 +
}}
  
 
=='''''External Links'''''==
 
=='''''External Links'''''==
* [https://www.ncbi.nlm.nih.gov/Structure/cdd/cddsrv.cgi?uid=pfam01342 NCBI COnserved Protein Domain Family]
+
* [https://www.ncbi.nlm.nih.gov/Structure/cdd/cddsrv.cgi?ascbin=8&maxaln=10&seltype=2&uid=TIGR00483 NCBI Conserved Protein Domain Family]
* [https://en.wikipedia.org/wiki/SAND_DNA-binding_protein_domain WikiPedia]
+
* [https://en.wikipedia.org/wiki/Eukaryotic_translation_elongation_factor_1_alpha_1 WikiPedia]
* [http://pfam.xfam.org/family/SAND Pfam]
+
* [http://www.ebi.ac.uk/interpro/entry/IPR004539?q=EF1A InterPro]
 +
* [http://pfam.xfam.org/family/PF00009 Pfam]

Latest revision as of 02:14, 30 August 2017

Synonymous Genes

  • EF1A <=> EF1a, EF1b, EF1A, EF1α, EF1-α, EF-1α

Applicable Species

Species Gene Synonymous Application scenarios Publication Year
Agrostis stolonifera Elongation factor-1a
  • Abiotic Stresses
2015
Anastrepha obliqua Elongation factor-1 alpha
  • Different Developmental Stages
2016
Aphis gossypii Elongation factor 1 alpha
  • Different Developmental Stages & Geographical Populations
2016
Arachis hypogaea Elongation factor 1B
  • Different Tissues
2013
Arachis hypogaea Elongation factor 1b
  • Different Developmental Stages & Abiotic Stress
2012
Artemisia annua Elongation factor 1-alpha
  • Different Tissues & Abiotic Stress
2014
Bemisia tabaci Elongation factor1-alpha
  • Different Commercially Available Insecticides
2014
Brachiaria brizantha Elongation factor-1 alpha
  • Different Sex & Tissues
2013
Branchiostoma japonicum Elongation factor 1-alpha
  • Elongation factor 1-alpha
2012
Brassica oleracea Elongation factor 1-alpha
  • Abiotic Stresses
2014
Brassica rapa subsp. pekinensis Elongation-factor-1-α
  • Biotic Stress & Mycotic Infection
2010
Camellia sinensis Elongation factor 1 alpha
  • Various Experimental Treatments
2014
Caragana korshinskii Elongation factor 1-alpha-like
  • Abiotic Stress
2014
Chortoicetes terminifera Elongation factor 1 alpha
  • Density-Dependent Behavioural plasticity
2011
Cicer arietinum Elongation factor 1-alpha
  • Different Developmental Stages & Abiotic Stress
2010
Cichorium intybus Elongation factor 1-alpha
  • Different Tissues
2010
Coffea arabica L. Elongation factor 1, Elongation factor 1-alpha
  • Abiotic Stress
2013
Coffea arabica L. Elongation factor 1-alpha
  • Different Genotypes & Abiotic Stress
2012
Corchorus capsularis Elongation factor 1-alph
  • Different Tissues & Abiotic Stress
2015
Craterostigma plantagineum Elongation factor 1-alpha
  • Different Tissues
2015
Ctenopharyngodon idella Elongation factor 1 a
  • Tissues & Cell Culture
2011
Cucumis sativus Elongation factor 1-alpha
  • Various Nutrition Conditions
2013
Cucumis sativus Elongation factor 1-α
  • Different Tissues & Hormones Treatment & abiotic stresses
2010
Cynodon dactylon Elongation factor 1a
  • Abiotic Stress
2014
Danaus plexippus Elongation factor 1α
  • Biotic & Abiotic Stress
2015
Dendrocalamus latiflorus Elongation factor 1-alpha
  • Different Tissues & Ploidy
2014
Diabrotica virgifera virgifera elongation factor-1α
  • Different Developmental Stages & Tissues
2014
Dicentrarchus labrax Ef-1 alpha
  • Different Developmental Stages & Tissues
2009
Dimocarpus longan Eukaryotic elongation factor 1-alpha
  • Somatic Embryogenesis
2010
Diploptera punctata Elongation factor 1 alpha
  • During Gonadotrophic Cycle
2013
Drosophila melanogaster Elongation Factor 1 alpha100
  • Physiological Responses
2011
Eremosparton songoricum Elongation factor 1-alpha
  • Different Tissues & Abiotic Stress
2012
Eucalyptus globulus Elongation factor 1α
  • Cold Acclimation
2010
Fragaria ananassa Elongation factor 1-alpha
  • Different Developmental Stages & Tissues
2015
Gentiana macrophylla Elongation factor 1-alpha
  • Different Tissue Types & Abiotic Stress
2016
Gossypium hirsutum Translation elongation factor 1A-8
  • Abiotic Stress
2013
Haliotis discus hannai Elongation factor-1-а
  • Bacterial Infection
2013
Hippoglossus hippoglossus Elongation factor 1 alpha
  • Different Development & Tissues
2010
Homo sapiens Eukaryotic elongation factor 1A1
  • Myocardium
2008
Homo sapiens Elongation factor 1-alpha 1
  • Breast Cancer
2013
Hyriopsis cumingii Elongation factor 1-alpha
  • During Biomineralization
2014
Jatropha curcas Elongation factor 1-alpha
  • Staminate & Pistillate Flowers
2017
Leptospira interrogans Eukaryotic translation elongation factor 1 alpha 2
  • Different Tissues & Abiotic Stress
2008
Lilium regale Elongation factor 1-a
  • Different Developmental Stages & Abiotic Stress
2016
Litsea cubeba Elongation factor 1-alpha
  • Different Developmental Stages & Tissues
2013
Lolium multiflorum Elongation factor 1-α-like protein
  • Salt Stress
2015
Lucilia sericata Elongation factor 1-alpha 1
  • Immune Challenge
2015
Lycium barbarum Elongation factor 1 alpha-like
  • Fruit Development
2013
Mus musculus Eukaryotic Translation Elongation Factor 2
  • Dextran Sodium Sulfate Experimental Colitis
2016
Musca domestica Elongation factor 1 alpha-like
  • Abiotic & Biotic Stress
2013
Nicotiana tabacum Elongation factor 1α
  • Different Developmental Stages & Abiotic stress
2010
Oreochromis niloticus EF-1a mRNA for elongation factor 1a
  • Different Tissues & Bacterial Infection
2013
Oreochromis niloticus Elongation factor 1 α
  • Vaccination & Infection
2015
Paeonia suffruticosa Elongation factor 1 alpha
  • Flower Development & Different Cultivars
2016
Panicum virgatum Elongation factor 1a
  • Different Tissues & Abiotic Stress
2014
Pecten maximus Eukaryotic translation elongation factor 1 alpha
  • Different Tissues
2012
Pennisetum glaucum Elongation factor-1 alpha
  • Abiotic Stress
2016
Pennisetum glaucum Elongation factor 1 subunit alpha
  • Different Tissues & Genotypes
2015
Pinus massoniana Elongation factor 1-beta
  • Different Tissues & Floral Organ Development & Abiotic Stress
2016
Plukenetia volubilis Elongation factor 1-alpha
  • Different Developmental Stages & Tissues
2015
Plutella xylostella Elongation factor 1
  • Different Developmental Stages & Tissues & Abiotic Stress
2013
Posidonia oceanica Elongation factor 1-alpha
  • Abiotic Stress
2012
Pyropia yezoensis Elongation factor 1-α
  • Different Developmental Stages & Abiotic Stress
2014
Ruditapes philippinarum Elongation factor 1 alpha
  • Copper Treated
2017
Salmo salar Elongation factor 1A A
  • Different Tissues & Smoltification Process
2005
Salmo salar Elongation factor 1A B
  • Different Tissues & Smoltification Process
2005
Scophthalmus maximus Elongation factor-1-α
  • Viral Infection
2013
Sebastes schlegeli Elongation factor-1-α
  • Different Developmental Stages & Tissues
2013
Setaria italica Elongation factor 1-alpha
  • Dehydration & Salinity Treatment
2013
Solanum tuberosum Elongation factor 1-a
  • Cold Stress
2013
Solenopsis invicta Translation elongation factor 1
  • Different Developmental Stages & Castes & Tissues
2013
Spodoptera litura Elongation factor-1
  • Abiotic & Biotic treatments
2013
Stipa grandis Elongation factor 1-beta
  • Abiotic Stress
2017
Tuber melanosporum Elongation factor 1-alpha
  • Different Developmental Stages
2015
Vernicia fordii Elongation factor 1-alpha
  • Seed Development
2012
Vigna mungo Elongation factor 1-alpha
  • Biotic and Abiotic stress
2013
Vitis vinifera Elongation factor 1a
  • Mycotic Infection
2013
Volvox carteri Eukaryotic translation elongation factor 1a2
  • Developmental Stages & Stress Treatments
2013
Zea mays Elongation factor 1 alpha
  • Abiotic Stresses & Hormone Treatment & Tissue Types
2014
Panax ginseng Elongation factor 1-gamma
  • Different Tissues & Abiotic Stress
2015
Corynebacterium pseudotuberculosis Elongation factor P
  • Abiotic Stress
2014
Glycine max Eukaryotic elongation factor 1 beta
  • Different Tissues & Abiotic Stress
2012
Glycine max Elongation factor 1-beta
  • Hypoxic Condition
2014
Panonychus citri Elongation factor-1 alpha
  • Different Developmental Stages & Abiotic Stress
2012
Raphanus sativus Translation elongation factor 2
  • Different Tissues & Cultivars & Developmental Stages
2012
Sesamia inferens Elongation factor 1
  • Different Tissues & Developmental Stages
2015
Spodoptera exigua Elongation factor 2
  • Different Developmental Stages & Tissues
2014

Featured Sequence

The Sequence of Homo sapiens EF1α is displayed as example.

000001 CTTTTTCGCA ACGGGTTTGC CGCCAGAACA CAGGTGTCGT GAAAACTACC CCTAAAAGCC AAAATGGGAA 000070
000071 AGGAAAAGAC TCATATCAAC ATTGTCGTCA TTGGACACGT AGATTCGGGC AAGTCCACCA CTACTGGCCA 000140
000141 TCTGATCTAT AAATGCGGTG GCATCGACAA AAGAACCATT GAAAAATTTG AGAAGGAGGC TGCTGAGATG 000210
000211 GGAAAGGGCT CCTTCAAGTA TGCCTGGGTC TTGGATAAAC TGAAAGCTGA GCGTGAACGT GGTATCACCA 000280
000281 TTGATATCTC CTTGTGGAAA TTTGAGACCA GCAAGTACTA TGTGACTATC ATTGATGCCC CAGGACACAG 000350
000351 AGACTTTATC AAAAACATGA TTACAGGGAC ATCTCAGGCT GACTGTGCTG TCCTGATTGT TGCTGCTGGT 000420
000421 GTTGGTGAAT TTGAAGCTGG TATCTCCAAG AATGGGCAGA CCCGAGAGCA TGCCCTTCTG GCTTACACAC 000490
000491 TGGGTGTGAA ACAACTAATT GTCGGTGTTA ACAAAATGGA TTCCACTGAG CCACCCTACA GCCAGAAGAG 000560
000561 ATATGAGGAA ATTGTTAAGG AAGTCAGCAC TTACATTAAG AAAATTGGCT ACAACCCCGA CACAGTAGCA 000630
000631 TTTGTGCCAA TTTCTGGTTG GAATGGTGAC AACATGCTGG AGCCAAGTGC TAACATGCCT TGGTTCAAGG 000700
000701 GATGGAAAGT CACCCGTAAG GATGGCAATG CCAGTGGAAC CACGCTGCTT GAGGCTCTGG ACTGCATCCT 000770
000771 ACCACCAACT CGTCCAACTG ACAAGCCCTT GCGCCTGCCT CTCCAGGATG TCTACAAAAT TGGTGGTATT 000840
000841 GGTACTGTTC CTGTTGGCCG AGTGGAGACT GGTGTTCTCA AACCCGGTAT GGTGGTCACC TTTGCTCCAG 000910
000911 TCAACGTTAC AACGGAAGTA AAATCTGTCG AAATGCACCA TGAAGCTTTG AGTGAAGCTC TTCCTGGGGA 000980
000981 CAATGTGGGC TTCAATGTCA AGAATGTGTC TGTCAAGGAT GTTCGTCGTG GCAACGTTGC TGGTGACAGC 001050
001051 AAAAATGACC CACCAATGGA AGCAGCTGGC TTCACTGCTC AGGTGATTAT CCTGAACCAT CCAGGCCAAA 001120
001121 TAAGCGCCGG CTATGCCCCT GTATTGGATT GCCACACGGC TCACATTGCA TGCAAGTTTG CTGAGCTGAA 001190
001191 GGAAAAGATT GATCGCCGTT CTGGTAAAAA GCTGGAAGAT GGCCCTAAAT TCTTGAAGTC TGGTGATGCT 001260
001261 GCCATTGTTG ATATGGTTCC TGGCAAGCCC ATGTGTGTTG AGAGCTTCTC AGACTATCCA CCTTTGGGTC 001330
001331 GCTTTGCTGT TCGTGATATG AGACAGACAG TTGCGGTGGG TGTCATCAAA GCAGTGGACA AGAAGGCTGC 001400
001401 TGGAGCTGGC AAGGTCACCA AGTCTGCCCA GAAAGCTCAG AAGGCTAAAT GAATATTATC CCTAATACCT 001470
001471 GCCACCCCAC TCTTAATCAG TGGTGGAAGA ACGGTCTCAG AACTGTTTGT TTCAATTGGC CATTTAAGTT 001540
001541 TAGTAGTAAA AGACTGGTTA ATGATAACAA TGCATCGTAA AACCTTCAGA AGGAAAGGAG AATGTTTTGT 001610
001611 GGACCACTTT GGTTTTCTTT TTTGCGTGTG GCAGTTTTAA GTTATTAGTT TTTAAAATCA GTACTTTTTA 001680
001681 ATGGAAACAA CTTGACCAAA AATTTGTCAC AGAATTTTGA GACCCATTAA AAAAGTTAAA TGAGAAACCT 001750
001751 GTGTGTTCCT TTGGTCAACA CCGAGACATT TAGGTGAAAG ACATCTAATT CTGGTTTTAC GAATCTGGAA 001820
001821 ACTTCTTGAA AATGTAATTC TTGAGTTAAC ACTTCTGGGT GGAGAATAGG GTTGTTTTCC CCCCACATAA 001890
001891 TTGGAAGGGG AAGGAATATC ATTTAAAGCT ATGGGAGGGT TGCTTTGATT ACAACACTGG AGAGAAATGC 001960
001961 AGCATGTTGC TGATTGCCTG TCACTAAAAC AGGCCAAAAA CTGAGTCCTT GTGTTGCATA GAAAGCTTCA 002030
002031 TGTTGCTAAA CCAATGTTAA GTGAATCTTT GGAAACAAAA TGTTTCCAAA TTACTGGGAT GTGCATGTTG 002100
002101 AAACGTGGGT TAAAATGACT GGGCAGTGAA AGTTGACTAT TTGCCATGAC ATAAGAAATA AGTGTAGTGG 002170
002171 CTAGTGTACA CCCTATGAGT GGAAGGGTCC ATTTTGAAGT CAGTGGAGTA AGCTTTATGC CAGTTTGATG 002240
002241 GTTTCACAAG TTCTATTGAG TGCTATTCAG AATAGGAACA AGGTTCTAAT AGAAAAAGAT GGCAATTTGA 002310
002311 AGTAGCTATA AAATTAGACT AATCTACATT GCTTTTCTCC TGCAGAGTCT AATACCTTTT ATGCTTTGAT 002380
002381 AATTAGCAGT TTGTCTACTT GGTCACTAGG AATGAAACTA CATGGTAATA GGCTTAACAG GTGTAATAGC 002450
002451 CCACTTACTC CTGAATCTTT AAGCATTTGT GCATTTGAAA AATGCTTTTC GCGATCTTCC TGCTGGGATT 002520
002521 ACAGGCATGA GCCACTGTGC CTGACCTCCC ATATGTAAAA GTGTCTAAAG GTTTTTTTTT GGTTATAAAA 002590
002591 GGAAAATTTT TGCTTAAGTT TGAAGGATAG GTAAAATTAA AGGACATGCT TTCTGTTTGT GTGATGGTTT 002660
002661 TTAAAAATTT TTTTTAAGAT GGAGTTCTTG TTGCCCAGGC TAGAATGCAA TGGCAAAATC TCACTGCAAT 002730
002731 CTCCTCCTCC TGGGTTCAAG CAATTCTCCT ACTTCAGCCT CCCAAGTAGC TGGGATTACA GGCATGTGCT 002800
002801 AATTTGGTGT TTTTAATAGA GATGAGGTTT TTCCATGTTG GTCAGGCTGG TCTCAAACTC CTGACCTTAG 002870
002871 GTGATCGCCT CGGCCTCCTA AAGTGCTGGA ATTACAGGCA TGAGCCACCA TGCCTGGCCA GGACATGTGT 002940
002941 TCTTAAGGAC ATGCTAAGCA GGAGTTAAAG CAGCCCAAGA GATAAGGCCT CTTAAAGTGA CTGGCAATGT 003010
003011 GTATTGCTCA AGATTCAAAG GTACTTGAAT TGGCCATAGA CAAGTCTGTA ATGAAGTGTT ATCGTTTTCC 003080
003081 CTCATCTGAG TCTGAATTAG ATAAAATGCC TTCCCATCAG CCAGTGCTCT GAGGTATCAA GTCTAAATTG 003150
003151 AACTAGAGAT TTTTGTCCTT AGTTTCTTTG CTATCTAATG TTTACACAAG TAAATAGTCT AAGATTTGCT 003220
003221 GGATGACAGA AAAAACAGGT AAGGCCTTTA ATAGATGGCC AATAGATGCC CTGATAATGA AAGTTGACAC 003290
003291 CTGTAAGATT TACCAGTAGA GAATTCTTGA CATGCAAGGA AGCAAGATTT AACTGAAAAA TTGTTCCCAC 003360
003361 TGGAAGCAGG AATGAGTCAG TTTACTTGCA TATACTGAGA TTGAGATTAA CTTCCTGTGA AACCCAGTGT 003430
003431 CTTAGACAAC TGTGGCTTGA GCACCACCTG CTGGTATTCA TTACAAACTT GCTCACTACA ATAAATGAAT 003500
003501 TTTAAGCTTT AAAAAAAAAA AAAAAAAA

Conserved Domains

The Conserved domains of Homo sapiens EF1α is displayed as example.

Human EF1A.png

External Links