Difference between revisions of "Gene:EF1A"
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=='''''Synonymous Genes'''''== | =='''''Synonymous Genes'''''== | ||
| + | * EF1A <=> EF1a, EF1b, EF1A, EF1α, EF1-α, EF-1α | ||
| − | ==''''' | + | =='''''Applicable Species'''''== |
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! Year | ! Year | ||
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| − | |align="center"|[[]] | + | |align="center"|[[Agrostis stolonifera]] |
| − | |align="center"| | + | |align="center"|Elongation factor-1a |
|| | || | ||
| − | *'''' | + | *''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"|[[Anastrepha obliqua]] | ||
| + | |align="center"|Elongation factor-1 alpha | ||
| + | || | ||
| + | *''Different Developmental Stages'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26818909 Reference genes for accessing differential expression among developmental stages and analysis of differential expression of OBP genes in Anastrepha obliqua] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Aphis gossypii]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Geographical Populations'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/28076279 Identification and Validation of Reference Genes for the Normalization of Gene Expression Data in qRT-PCR Analysis in Aphis gossypii (Hemiptera: Aphididae).] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Arachis hypogaea]] | ||
| + | |align="center"|Elongation factor 1B | ||
| + | || | ||
| + | *''Different Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24167633 Evaluation and validation of reference genes for normalization of quantitative real-time PCR based gene expression studies in peanut] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Arachis hypogaea]] | ||
| + | |align="center"|Elongation factor 1b | ||
| + | || | ||
| + | *''Different Developmental Stages & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/22203160 Validation of reference genes for gene expression studies in peanut by quantitative real-time RT-PCR] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Artemisia annua]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s11240-014-0690-2 Reference gene selection in Artemisia annua L., a plant species producing anti-malarial artemisinin] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Bemisia tabaci]] | ||
| + | |align="center"|Elongation factor1-alpha | ||
| + | || | ||
| + | *''Different Commercially Available Insecticides'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24498122 Expression profiling in Bemisia tabaci under insecticide treatment: indicating the necessity for custom reference gene selection] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Brachiaria brizantha]] | ||
| + | |align="center"|Elongation factor-1 alpha | ||
| + | || | ||
| + | *''Different Sex & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23427655 Validation of internal reference genes for real-time quantitative polymerase chain reaction studies in the tick, Ixodes scapularis (Acari: Ixodidae)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Branchiostoma japonicum]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Elongation factor 1-alpha'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/22554576 EF1a is a useful internal reference for studies of gene expression regulation in amphioxus Branchiostoma japonicum] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Brassica oleracea]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Abiotic Stresses'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24566730 Identification of suitable qPCR reference genes in leaves of Brassica oleracea under abiotic stresses] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Brassica rapa subsp. pekinensis]] | ||
| + | |align="center"|Elongation-factor-1-α | ||
| + | || | ||
| + | *''Biotic Stress & Mycotic Infection'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s11105-010-0185-1 Reference gene selection for real-time quantitative polymerase chain reaction of mRNA transcript levels in Chinese cabbage (Brassica rapa L. ssp. pekinensis)] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Camellia sinensis]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Various Experimental Treatments'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25474086 Identification and evaluation of reliable reference genes for quantitative real-time PCR analysis in tea plant (Camellia sinensis (L.) O. Kuntze)] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Caragana korshinskii]] | ||
| + | |align="center"|Elongation factor 1-alpha-like | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24452712 Reference gene selection for qRT-PCR in Caragana korshinskii Kom. under different stress conditions] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Chortoicetes terminifera]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Density-Dependent Behavioural plasticity'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/21324174 Assessment and validation of a suite of reverse transcription-quantitative PCR reference genes for analyses of density-dependent behavioural plasticity in the Australian plague locust] | ||
| + | |align="center"|2011 | ||
| + | |- | ||
| + | |align="center"|[[Cicer arietinum]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Abiotic Stress'' | ||
| + | || | ||
| + | *[http://www.sciencedirect.com/science/article/pii/S0006291X10007485 Validation of internal control genes for quantitative gene expression studies in chickpea (Cicer arietinum L.). Biochemical and biophysical research communications] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Cichorium intybus]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/20156357 Validation of reference genes for gene expression analysis in chicory (Cichorium intybus) using quantitative real-time PCR] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Coffea arabica L.]] | ||
| + | |align="center"|Elongation factor 1, Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/22421886 Nitrogen starvation, salt and heat stress in coffee (Coffea arabica L.): identification and validation of new genes for qPCR normalization] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Coffea arabica L.]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Genotypes & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s11105-011-0382-6 Selection of Reference Genes for Normalizing Quantitative Real-Time PCR Gene Expression Data with Multiple Variables in Coffea spp] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Corchorus capsularis]] | ||
| + | |align="center"|Elongation factor 1-alph | ||
| + | || | ||
| + | *''Different Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26528312 Selection of reliable reference genes for quantitative real-time PCR gene expression analysis in Jute (Corchorus capsularis) under stress treatments] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Craterostigma plantagineum]] | ||
| + | |align="center"| Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26025524 Quantification of expression of dehydrin isoforms in the desiccation tolerant plant Craterostigma plantagineum using specifically designed reference genes] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Ctenopharyngodon idella]] | ||
| + | |align="center"|Elongation factor 1 a | ||
| + | || | ||
| + | *''Tissues & Cell Culture'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/21255653 Evaluation of internal control genes for qRT-PCR normalization in tissues and cell culture for antiviral studies of grass carp (Ctenopharyngodon idella)] | ||
| + | |align="center"|2011 | ||
| + | |- | ||
| + | |align="center"|[[Cucumis sativus]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Various Nutrition Conditions'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24058446 Reliable reference genes for normalization of gene expression in cucumber grown under different nitrogen nutrition] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Cucumis sativus]] | ||
| + | |align="center"|Elongation factor 1-α | ||
| + | || | ||
| + | *''Different Tissues & Hormones Treatment & abiotic stresses'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/20005862 Selection of appropriate reference genes for gene expression studies by quantitative real-time polymerase chain reaction in cucumber] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Cynodon dactylon]] | ||
| + | |align="center"|Elongation factor 1a | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25331743 Selection and validation of reference genes for target gene analysis with quantitative RT-PCR in leaves and roots of bermudagrass under four different abiotic stresses] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Danaus plexippus]] | ||
| + | |align="center"|Elongation factor 1α | ||
| + | || | ||
| + | *''Biotic & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26030778 Selection of Reference Genes for RT-qPCR Analysis in the Monarch Butterfly, Danaus plexippus (L.), a Migrating Bio-Indicator] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Dendrocalamus latiflorus]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissues & Ploidy'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24498321 Validation of Reference Genes Aiming Accurate Normalization of qRT-PCR Data in Dendrocalamus latiflorus Munro] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Diabrotica virgifera virgifera]] | ||
| + | |align="center"|elongation factor-1α | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25356627 Validation of reference housekeeping genes for gene expression studies in western corn rootworm (Diabrotica virgifera virgifera)] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Dicentrarchus labrax]] | ||
| + | |align="center"|Ef-1 alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/19398033 Evaluation of candidate reference genes for QPCR during ontogenesis and of immune-relevant tissues of European seabass (Dicentrarchus labrax)] | ||
| + | |align="center"|2009 | ||
| + | |- | ||
| + | |align="center"|[[Dimocarpus longan]] | ||
| + | |align="center"|Eukaryotic elongation factor 1-alpha | ||
| + | || | ||
| + | *''Somatic Embryogenesis'' | ||
| + | || | ||
| + | *[http://www.sciencedirect.com/science/article/pii/S016894521000035X Reference gene selection for qPCR analysis during somatic embryogenesis in longan tree] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Diploptera punctata]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''During Gonadotrophic Cycle'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23777660 Sequencing and validation of housekeeping genes for quantitative real-time PCR during the gonadotrophic cycle of Diploptera punctata] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Drosophila melanogaster]] | ||
| + | |align="center"|Elongation Factor 1 alpha100 | ||
| + | || | ||
| + | *''Physiological Responses'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/21435341 Evaluation of potential reference genes for reverse transcription-qPCR studies of physiological responses in Drosophila melanogaster] | ||
| + | |align="center"|2011 | ||
| + | |- | ||
| + | |align="center"|[[Eremosparton songoricum]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/22837673 Reference gene selection in the desert plant Eremosparton songoricum] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Eucalyptus globulus]] | ||
| + | |align="center"|Elongation factor 1α | ||
| + | || | ||
| + | *''Cold Acclimation'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s00468-010-0483-0 Validation of reference genes for real-time qRT-PCR normalization during cold acclimation in Eucalyptus globulus] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Fragaria ananassa]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23940602 Identification and validation of reference genes for transcript normalization in strawberry (Fragaria × ananassa) defense responses] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Gentiana macrophylla]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Tissue Types & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/27446172 Selection and Validation of Reference Genes for Quantitative Real-time PCR in Gentiana macrophylla] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Gossypium hirsutum]] | ||
| + | |align="center"|Translation elongation factor 1A-8 | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23933278 Evaluation and selection of reliable reference genes for gene expression under abiotic stress in cotton (Gossypium hirsutum L.)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Haliotis discus hannai]] | ||
| + | |align="center"|Elongation factor-1-а | ||
| + | || | ||
| + | *''Bacterial Infection'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s00343-013-2221-0 Identification of normalization factors for quantitative real-time RT-PCR analysis of gene expression in Pacific abalone Haliotis discus hannai] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Hippoglossus hippoglossus]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Different Development & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/20459764 Evaluation of potential reference genes for real time RT-PCR studies in Atlantic halibut (Hippoglossus Hippoglossus L.); during development, in tissues of healthy and NNV-injected fish, and in anterior kidney leucocytes] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Homo sapiens]] | ||
| + | |align="center"|Eukaryotic elongation factor 1A1 | ||
| + | || | ||
| + | *''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"|[[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"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''During Biomineralization'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24638931 Identification of housekeeping genes suitable for gene expression analysis in the pearl mussel, Hyriopsis cumingii, during biomineralization] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Jatropha curcas]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Staminate & Pistillate Flowers'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/28234941 Identification and validation of superior reference gene for gene expression normalization via RT-qPCR in staminate and pistillate flowers of Jatropha curcas - A biodiesel plant.] | ||
| + | |align="center"|2017 | ||
| + | |- | ||
| + | |align="center"|[[Leptospira interrogans]] | ||
| + | |align="center"|Eukaryotic translation elongation factor 1 alpha 2 | ||
| + | || | ||
| + | *''Different Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/18347854 Selection of the internal control gene for real-time quantitative rt-PCR assays in temperature treated Leptospira] | ||
| + | |align="center"|2008 | ||
| + | |- | ||
| + | |align="center"|[[Lilium regale]] | ||
| + | |align="center"|Elongation factor 1-a | ||
| + | || | ||
| + | *''Different Developmental Stages & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/27019788 Evaluation of putative reference genes for quantitative real-time PCR normalization in Lilium regale during development and under stress] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Litsea cubeba]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24162560 Identification of appropriate reference genes for normalizing transcript expression by quantitative real-time PCR in Litsea cubeba] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Lolium multiflorum]] | ||
| + | |align="center"|Elongation factor 1-α-like protein | ||
| + | || | ||
| + | *''Salt Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25786166 Identification of the valid reference genes for quantitative RT-PCR in annual ryegrass (Lolium multiflorum) under salt stress] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Lucilia sericata]] | ||
| + | |align="center"|Elongation factor 1-alpha 1 | ||
| + | || | ||
| + | *''Immune Challenge'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26252388 Selection and Evaluation of Tissue Specific Reference Genes in Lucilia sericata during an Immune Challenge] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Lycium barbarum]] | ||
| + | |align="center"|Elongation factor 1 alpha-like | ||
| + | || | ||
| + | *''Fruit Development'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23811043 Validation of reference genes for quantitative real-time PCR during Chinese wolfberry fruit development] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Mus musculus]] | ||
| + | |align="center"|Eukaryotic Translation Elongation Factor 2 | ||
| + | || | ||
| + | *''Dextran Sodium Sulfate Experimental Colitis'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/27244258 Stability of Reference Genes for Messenger RNA Quantification by Real-Time PCR in Mouse Dextran Sodium Sulfate Experimental Colitis] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Musca domestica]] | ||
| + | |align="center"|Elongation factor 1 alpha-like | ||
| + | || | ||
| + | *''Abiotic & Biotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24113091 Selection of reference genes for quantitative gene expression studies in the house fly (Musca domestica L.) using reverse transcription quantitative real-time PCR] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Nicotiana tabacum]] | ||
| + | |align="center"|Elongation factor 1α | ||
| + | || | ||
| + | *''Different Developmental Stages & Abiotic stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/20098998 Stable internal reference genes for normalization of real-time RT-PCR in tobacco (Nicotiana tabacum) during development and abiotic stress] | ||
| + | |align="center"|2010 | ||
| + | |- | ||
| + | |align="center"|[[Oreochromis niloticus]] | ||
| + | |align="center"|EF-1a mRNA for elongation factor 1a | ||
| + | || | ||
| + | *''Different Tissues & Bacterial Infection'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23792389 Evaluation of reference genes for quantitative real-time RT-PCR analysis of gene expression in Nile tilapia (Oreochromis niloticus)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Oreochromis niloticus]] | ||
| + | |align="center"|Elongation factor 1 α | ||
| + | || | ||
| + | *''Vaccination & Infection'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25941937 Evaluation and Selection of Appropriate Reference Genes for Real-Time Quantitative PCR Analysis of Gene Expression in Nile Tilapia (Oreochromis niloticus) during Vaccination and Infection] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Paeonia suffruticosa]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Flower Development & Different Cultivars'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/27148337 Selection of Reference Genes for Quantitative Real-Time PCR during Flower Development in Tree Peony (Paeonia suffruticosa Andr.)] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Panicum virgatum]] | ||
| + | |align="center"|Elongation factor 1a | ||
| + | || | ||
| + | *''Different Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24621568 Selection and validation of reference genes for gene expression analysis in switchgrass (Panicum virgatum) using quantitative real-time RT-PCR] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Pecten maximus]] | ||
| + | |align="center"|Eukaryotic translation elongation factor 1 alpha | ||
| + | || | ||
| + | *''Different Tissues'' | ||
| + | || | ||
| + | *[http://www.sciencedirect.com/science/article/pii/S0044848612006217 Selection of reference genes for quantitative RT-PCR studies on the gonad of the bivalve mollusc Pecten maximus L] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Pennisetum glaucum]] | ||
| + | |align="center"|Elongation factor-1 alpha | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26972345 Selection of suitable reference genes for assessing gene expression in pearl millet under different abiotic stresses and their combinations] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Pennisetum glaucum]] | ||
| + | |align="center"|Elongation factor 1 subunit alpha | ||
| + | || | ||
| + | *''Different Tissues & Genotypes'' | ||
| + | || | ||
| + | *[http://www.sciencedirect.com/science/article/pii/S2352407315000062 Cloning and validation of reference genes for normalization of gene expression studies in pearl millet Pennisetum glaucum (L.) R. Br. by quantitative real-time PCR] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Pinus massoniana]] | ||
| + | |align="center"|Elongation factor 1-beta | ||
| + | || | ||
| + | *''Different Tissues & Floral Organ Development & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26800152 Selection of Reference Genes for Real-Time Quantitative PCR in Pinus massoniana Post Nematode Inoculation] | ||
| + | |align="center"|2016 | ||
| + | |- | ||
| + | |align="center"|[[Plukenetia volubilis]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/26047338 Selection of Reliable Reference Genes for Gene Expression Studies of a Promising Oilseed Crop, Plukenetia volubilis, by Real-Time Quantitative PCR] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Plutella xylostella]] | ||
| + | |align="center"|Elongation factor 1 | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23983612 Exploring valid reference genes for quantitative real-time PCR analysis in Plutella xylostella (Lepidoptera: Plutellidae)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Posidonia oceanica]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s00227-012-1907-8 Reference genes assessment for the seagrass Posidonia oceanica in different salinity, pH and light conditions] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Pyropia yezoensis]] | ||
| + | |align="center"|Elongation factor 1-α | ||
| + | || | ||
| + | *''Different Developmental Stages & Abiotic Stress'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s10811-014-0359-6 Selection of reference genes for gene expression normalization in Pyropia yezoensis using quantitative real-time PCR] | ||
| + | |align="center"|2014 | ||
| + | |- | ||
| + | |align="center"|[[Ruditapes philippinarum]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Copper Treated'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/28189915 Validation of reference genes for RT-qPCR in marine bivalve ecotoxicology: Systematic review and case study using copper treated primary Ruditapes philippinarum hemocytes] | ||
| + | |align="center"|2017 | ||
| + | |- | ||
| + | |align="center"|[[Salmo salar]] | ||
| + | |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'' | ||
| + | || | ||
| + | *[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"|[[Scophthalmus maximus]] | ||
| + | |align="center"|Elongation factor-1-α | ||
| + | || | ||
| + | *''Viral Infection'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23332581 Selection of normalization factors for quantitative real time RT-PCR studies in Japanese flounder (Paralichthys olivaceus) and turbot (Scophthalmus maximus) under conditions of viral infection] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Sebastes schlegeli]] | ||
| + | |align="center"|Elongation factor-1-α | ||
| + | || | ||
| + | *''Different Developmental Stages & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24007945 Selection of reference genes for reverse transcription quantitative real-time PCR normalization in black rockfish (Sebastes schlegeli)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Setaria italica]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Dehydration & Salinity Treatment'' | ||
| + | || | ||
| + | *[https://link.springer.com/article/10.1007/s11240-013-0335-x Reference genes for quantitative real-time PCR analysis in the model plant foxtail millet (Setariaitalica L.) subjected to abiotic stress conditions] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Solanum tuberosum]] | ||
| + | |align="center"|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] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Solenopsis invicta]] | ||
| + | |align="center"|Translation elongation factor 1 | ||
| + | || | ||
| + | *''Different Developmental Stages & Castes & Tissues'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23469057 Validation of reference genes in Solenopsis invicta in different developmental stages, castes and tissues] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Spodoptera litura]] | ||
| + | |align="center"|Elongation factor-1 | ||
| + | || | ||
| + | *''Abiotic & Biotic treatments'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23874494 Identification and validation of reference genes for gene expression analysis using quantitative PCR in Spodoptera litura (Lepidoptera: Noctuidae)] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Stipa grandis]] | ||
| + | |align="center"|Elongation factor 1-beta | ||
| + | || | ||
| + | *''Abiotic Stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/28056110 Selection of Reference Genes for qRT-PCR Analysis of Gene Expression in Stipa grandis during Environmental Stresses] | ||
| + | |align="center"|2017 | ||
| + | |- | ||
| + | |align="center"|[[Tuber melanosporum]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Different Developmental Stages'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/25778998 Validation of reference genes for quantitative real-time PCR in Perigord black truffle (Tuber melanosporum) developmental stages] | ||
| + | |align="center"|2015 | ||
| + | |- | ||
| + | |align="center"|[[Vernicia fordii]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Seed Development'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/22912794 Selection of reliable reference genes for gene expression studies using real-time PCR in tung tree during seed development] | ||
| + | |align="center"|2012 | ||
| + | |- | ||
| + | |align="center"|[[Vigna mungo]] | ||
| + | |align="center"|Elongation factor 1-alpha | ||
| + | || | ||
| + | *''Biotic and Abiotic stress'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/23868569 Defining reference genes for qPCR normalization to study biotic and abiotic stress responses in Vigna mungo] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Vitis vinifera]] | ||
| + | |align="center"|Elongation factor 1a | ||
| + | || | ||
| + | *''Mycotic Infection'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24023800 Reference gene selection and validation for the early responses to downy mildew infection in susceptible and resistant Vitis vinifera cultivars] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Volvox carteri]] | ||
| + | |align="center"|Eukaryotic translation elongation factor 1a2 | ||
| + | || | ||
| + | *''Developmental Stages & Stress Treatments'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24057254 Validation of reference genes for quantitative gene expression studies in Volvox carteri using real-time RT-PCR. Molecular biology reports] | ||
| + | |align="center"|2013 | ||
| + | |- | ||
| + | |align="center"|[[Zea mays]] | ||
| + | |align="center"|Elongation factor 1 alpha | ||
| + | || | ||
| + | *''Abiotic Stresses & Hormone Treatment & Tissue Types'' | ||
| + | || | ||
| + | *[https://www.ncbi.nlm.nih.gov/pubmed/24810581 Validation of potential reference genes for qPCR in maize across abiotic stresses, hormone treatments, and tissue types] | ||
| + | |align="center"|2014 | ||
|- | |- | ||
| − | |align="center"|[[]] | + | |align="center"|[[Panax ginseng]] |
| − | |align="center"| | + | |align="center"|Elongation factor 1-gamma |
|| | || | ||
| − | *'''' | + | *''Different Tissues & Abiotic Stress'' |
|| | || | ||
| − | + | *[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"|[[]] | + | |align="center"|[[Corynebacterium pseudotuberculosis]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Glycine max]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Glycine max]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Panonychus citri]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Raphanus sativus]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Sesamia inferens]] |
| − | |align="center"| | + | |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"|[[]] | + | |align="center"|[[Spodoptera exigua]] |
| − | |align="center"| | + | |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= | + | * [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/ | + | * [https://en.wikipedia.org/wiki/Eukaryotic_translation_elongation_factor_1_alpha_1 WikiPedia] |
| − | * [http://pfam.xfam.org/family/ | + | * [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
Contents
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 |
|
2015 | |
| Anastrepha obliqua | Elongation factor-1 alpha |
|
2016 | |
| Aphis gossypii | Elongation factor 1 alpha |
|
2016 | |
| Arachis hypogaea | Elongation factor 1B |
|
2013 | |
| Arachis hypogaea | Elongation factor 1b |
|
2012 | |
| Artemisia annua | Elongation factor 1-alpha |
|
2014 | |
| Bemisia tabaci | Elongation factor1-alpha |
|
2014 | |
| Brachiaria brizantha | Elongation factor-1 alpha |
|
2013 | |
| Branchiostoma japonicum | Elongation factor 1-alpha |
|
2012 | |
| Brassica oleracea | Elongation factor 1-alpha |
|
2014 | |
| Brassica rapa subsp. pekinensis | Elongation-factor-1-α |
|
2010 | |
| Camellia sinensis | Elongation factor 1 alpha |
|
2014 | |
| Caragana korshinskii | Elongation factor 1-alpha-like |
|
2014 | |
| Chortoicetes terminifera | Elongation factor 1 alpha |
|
2011 | |
| Cicer arietinum | Elongation factor 1-alpha |
|
2010 | |
| Cichorium intybus | Elongation factor 1-alpha |
|
2010 | |
| Coffea arabica L. | Elongation factor 1, Elongation factor 1-alpha |
|
2013 | |
| Coffea arabica L. | Elongation factor 1-alpha |
|
2012 | |
| Corchorus capsularis | Elongation factor 1-alph |
|
2015 | |
| Craterostigma plantagineum | Elongation factor 1-alpha |
|
2015 | |
| Ctenopharyngodon idella | Elongation factor 1 a |
|
2011 | |
| Cucumis sativus | Elongation factor 1-alpha |
|
2013 | |
| Cucumis sativus | Elongation factor 1-α |
|
2010 | |
| Cynodon dactylon | Elongation factor 1a |
|
2014 | |
| Danaus plexippus | Elongation factor 1α |
|
2015 | |
| Dendrocalamus latiflorus | Elongation factor 1-alpha |
|
2014 | |
| Diabrotica virgifera virgifera | elongation factor-1α |
|
2014 | |
| Dicentrarchus labrax | Ef-1 alpha |
|
2009 | |
| Dimocarpus longan | Eukaryotic elongation factor 1-alpha |
|
2010 | |
| Diploptera punctata | Elongation factor 1 alpha |
|
2013 | |
| Drosophila melanogaster | Elongation Factor 1 alpha100 |
|
2011 | |
| Eremosparton songoricum | Elongation factor 1-alpha |
|
2012 | |
| Eucalyptus globulus | Elongation factor 1α |
|
2010 | |
| Fragaria ananassa | Elongation factor 1-alpha |
|
2015 | |
| Gentiana macrophylla | Elongation factor 1-alpha |
|
2016 | |
| Gossypium hirsutum | Translation elongation factor 1A-8 |
|
2013 | |
| Haliotis discus hannai | Elongation factor-1-а |
|
2013 | |
| Hippoglossus hippoglossus | Elongation factor 1 alpha |
|
2010 | |
| Homo sapiens | Eukaryotic elongation factor 1A1 |
|
2008 | |
| Homo sapiens | Elongation factor 1-alpha 1 |
|
2013 | |
| Hyriopsis cumingii | Elongation factor 1-alpha |
|
2014 | |
| Jatropha curcas | Elongation factor 1-alpha |
|
2017 | |
| Leptospira interrogans | Eukaryotic translation elongation factor 1 alpha 2 |
|
2008 | |
| Lilium regale | Elongation factor 1-a |
|
2016 | |
| Litsea cubeba | Elongation factor 1-alpha |
|
2013 | |
| Lolium multiflorum | Elongation factor 1-α-like protein |
|
2015 | |
| Lucilia sericata | Elongation factor 1-alpha 1 |
|
2015 | |
| Lycium barbarum | Elongation factor 1 alpha-like |
|
2013 | |
| Mus musculus | Eukaryotic Translation Elongation Factor 2 |
|
2016 | |
| Musca domestica | Elongation factor 1 alpha-like |
|
2013 | |
| Nicotiana tabacum | Elongation factor 1α |
|
2010 | |
| Oreochromis niloticus | EF-1a mRNA for elongation factor 1a |
|
2013 | |
| Oreochromis niloticus | Elongation factor 1 α |
|
2015 | |
| Paeonia suffruticosa | Elongation factor 1 alpha |
|
2016 | |
| Panicum virgatum | Elongation factor 1a |
|
2014 | |
| Pecten maximus | Eukaryotic translation elongation factor 1 alpha |
|
2012 | |
| Pennisetum glaucum | Elongation factor-1 alpha |
|
2016 | |
| Pennisetum glaucum | Elongation factor 1 subunit alpha |
|
2015 | |
| Pinus massoniana | Elongation factor 1-beta |
|
2016 | |
| Plukenetia volubilis | Elongation factor 1-alpha |
|
2015 | |
| Plutella xylostella | Elongation factor 1 |
|
2013 | |
| Posidonia oceanica | Elongation factor 1-alpha |
|
2012 | |
| Pyropia yezoensis | Elongation factor 1-α |
|
2014 | |
| Ruditapes philippinarum | Elongation factor 1 alpha |
|
2017 | |
| Salmo salar | Elongation factor 1A A |
|
2005 | |
| Salmo salar | Elongation factor 1A B |
|
2005 | |
| Scophthalmus maximus | Elongation factor-1-α |
|
2013 | |
| Sebastes schlegeli | Elongation factor-1-α |
|
2013 | |
| Setaria italica | Elongation factor 1-alpha |
|
2013 | |
| Solanum tuberosum | Elongation factor 1-a |
|
2013 | |
| Solenopsis invicta | Translation elongation factor 1 |
|
2013 | |
| Spodoptera litura | Elongation factor-1 |
|
2013 | |
| Stipa grandis | Elongation factor 1-beta |
|
2017 | |
| Tuber melanosporum | Elongation factor 1-alpha |
|
2015 | |
| Vernicia fordii | Elongation factor 1-alpha |
|
2012 | |
| Vigna mungo | Elongation factor 1-alpha |
|
2013 | |
| Vitis vinifera | Elongation factor 1a |
|
2013 | |
| Volvox carteri | Eukaryotic translation elongation factor 1a2 |
|
2013 | |
| Zea mays | Elongation factor 1 alpha |
|
2014 | |
| Panax ginseng | Elongation factor 1-gamma |
|
2015 | |
| Corynebacterium pseudotuberculosis | Elongation factor P |
|
2014 | |
| Glycine max | Eukaryotic elongation factor 1 beta |
|
2012 | |
| Glycine max | Elongation factor 1-beta |
|
2014 | |
| Panonychus citri | Elongation factor-1 alpha |
|
2012 | |
| Raphanus sativus | Translation elongation factor 2 |
|
2012 | |
| Sesamia inferens | Elongation factor 1 |
|
2015 | |
| Spodoptera exigua | Elongation factor 2 |
|
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.  |
|---|
