Expression viewer
Gene annotation for LOC123157169
| Species | tae |
|---|---|
| Symbol | LOC123157169 |
| Function* | SPX domain-containing protein 1-like |
| Entrez Gene ID* | 123157169 |
| Other ID |
Expression pattern of LOC123157169
| Normalized expression (Base-2 logarithm) |
Experiment ID | Sample ID | Source Name in annotation |
|---|---|---|---|
| 10.9 | ERP004689 | ERR420179 | Transcriptome-based association genetics in hexaploid wheat |
| 10.9 | ERP004689 | ERR420199 | Transcriptome-based association genetics in hexaploid wheat |
| 10.8 | SRP091625 | SRR4426234 | Transcriptome association identifies regulators of wheat grain production |
| 10.6 | ERP004689 | ERR420127 | Transcriptome-based association genetics in hexaploid wheat |
| 10.6 | ERP004689 | ERR420214 | Transcriptome-based association genetics in hexaploid wheat |
| 10.3 | SRP052836 | SRR1777487 | Triticum aestivum Transcriptome or Gene expression |
| 10.1 | SRP173230 | SRR8309947 | Characterization of QTL and eQTL linked with early Fusarium graminearum infection and deoxynivalenol levels in a Wuhan -1 x Nyubai doubled-haploid wheat population at two days post inoculation |
| 10.0 | SRP321728 | SRR14674054 | Triticum aestivum Transcriptome or Gene expression |
| 10.0 | SRP321728 | SRR14674078 | Triticum aestivum Transcriptome or Gene expression |
| 9.9 | SRP321728 | SRR14674056 | Triticum aestivum Transcriptome or Gene expression |
| 9.9 | SRP146060 | SRR7166237 | Triticum aestivum Transcriptome or Gene expression |
| 9.9 | SRP156347 | SRR7644397 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.9 | SRP146060 | SRR7166238 | Triticum aestivum Transcriptome or Gene expression |
| 9.9 | SRP321728 | SRR14674023 | Triticum aestivum Transcriptome or Gene expression |
| 9.8 | SRP321728 | SRR14674070 | Triticum aestivum Transcriptome or Gene expression |
| 9.8 | SRP321728 | SRR14674034 | Triticum aestivum Transcriptome or Gene expression |
| 9.8 | SRP156347 | SRR7644298 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.7 | SRP156347 | SRR7644394 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.7 | SRP076477 | SRR3659898 | Genome-wide mRNA Transcriptional Profiling Reveals Regulatory Network for Coordinated Early Wheat Spike Development |
| 9.7 | ERP013829 | ERR1201787 | RNA-seq of coding RNA of wheat heads from 3, 6, 12, 24, 36, and 48 hours after inoculation of fungal pathogen Fusarium graminearum or mock inoculation |
| 9.7 | ERP104851 | ERR2178392 | Differential gene expression studies for identifying genes imparting heat stress tolerance in wheat during grain filling. |
| 9.6 | SRP146060 | SRR7166244 | Triticum aestivum Transcriptome or Gene expression |
| 9.6 | SRP111489 | SRR5816279 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.6 | SRP293922 | SRR13114678 | Iron Deficiency Triggered Transcriptome Changes in Bread Wheat |
| 9.6 | SRP156347 | SRR7644297 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.6 | SRP173230 | SRR8309923 | Characterization of QTL and eQTL linked with early Fusarium graminearum infection and deoxynivalenol levels in a Wuhan -1 x Nyubai doubled-haploid wheat population at two days post inoculation |
| 9.6 | SRP076345 | SRR3655284 | Transcriptome analysis of a stem rust resistance locus on wheat chromosome 7AL |
| 9.6 | ERP013829 | ERR1201769 | RNA-seq of coding RNA of wheat heads from 3, 6, 12, 24, 36, and 48 hours after inoculation of fungal pathogen Fusarium graminearum or mock inoculation |
| 9.6 | SRP091625 | SRR4426247 | Transcriptome association identifies regulators of wheat grain production |
| 9.6 | SRP076345 | SRR3655274 | Transcriptome analysis of a stem rust resistance locus on wheat chromosome 7AL |
| 9.6 | SRP279172 | SRR12539320 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.5 | SRP052836 | SRR1777483 | Triticum aestivum Transcriptome or Gene expression |
| 9.5 | SRP223022 | SRR10166416 | Transcriptomic and phytohormone profiling reveal early stage molecular variations upon co-application of abscisic or gibberellic acids with Fusarium graminearum-challenge of wheat |
| 9.5 | SRP321728 | SRR14673983 | Triticum aestivum Transcriptome or Gene expression |
| 9.5 | SRP111489 | SRR5816278 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.5 | SRP223022 | SRR10166405 | Transcriptomic and phytohormone profiling reveal early stage molecular variations upon co-application of abscisic or gibberellic acids with Fusarium graminearum-challenge of wheat |
| 9.5 | SRP279172 | SRR12539319 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.5 | ERP013829 | ERR1201805 | RNA-seq of coding RNA of wheat heads from 3, 6, 12, 24, 36, and 48 hours after inoculation of fungal pathogen Fusarium graminearum or mock inoculation |
| 9.5 | SRP111489 | SRR5816275 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.5 | SRP321728 | SRR14674006 | Triticum aestivum Transcriptome or Gene expression |
| 9.5 | SRP223022 | SRR10166419 | Transcriptomic and phytohormone profiling reveal early stage molecular variations upon co-application of abscisic or gibberellic acids with Fusarium graminearum-challenge of wheat |
| 9.5 | SRP321728 | SRR14674001 | Triticum aestivum Transcriptome or Gene expression |
| 9.5 | ERP024175 | ERR2039307 | RNAseq of roots and leaves of tender wheat (Triticum aestivum cv chinese Spring) during interactions with mycorhizal fungi (Funneliformis mossae) with and without a pathogen attack by Xanthomonas translucens |
| 9.4 | SRP326239 | SRR14999754 | Transcriptome analysis of two near-isogenic lines with different NUE under normal nitrogen conditions in wheat |
| 9.4 | SRP068165 | SRR3098728 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | DRP000768 | DRR003152 | Characterisation of the wheat (Triticum aestivum L.) transcriptome by de novo assembly for the discovery of phosphate starvation-responsive genes |
| 9.4 | SRP068165 | SRR3089146 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | SRP279172 | SRR12539331 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.4 | ERP106534 | ERR2275067 | transcriptomic analysis of F. graminearum disease response in near-isogenic resistant and susceptible hexaploid wheat lines |
| 9.4 | SRP321728 | SRR14674016 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | SRP173230 | SRR8309928 | Characterization of QTL and eQTL linked with early Fusarium graminearum infection and deoxynivalenol levels in a Wuhan -1 x Nyubai doubled-haploid wheat population at two days post inoculation |
| 9.4 | SRP156347 | SRR7644336 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.4 | ERP106534 | ERR2275053 | transcriptomic analysis of F. graminearum disease response in near-isogenic resistant and susceptible hexaploid wheat lines |
| 9.4 | SRP321728 | SRR14674100 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | SRP304900 | SRR13640912 | Next-Generation Sequencing Facilitates Quantitative Analysis of Transcriptomes Mechanism for Autophagy Inhibition Enhanced Salt Stress Sensitivity of Wheat Seedling |
| 9.4 | ERP004689 | SRR2983179 | Transcriptome-based association genetics in hexaploid wheat |
| 9.4 | SRP068165 | SRR3089147 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | SRP111489 | SRR5816323 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.4 | SRP321728 | SRR14673874 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | ERP004714 | ERR424721 | Whole transcriptome sequencing of wheat 3B chromosome |
| 9.4 | SRP068165 | SRR3098729 | Triticum aestivum Transcriptome or Gene expression |
| 9.4 | SRP155866 | SRR7628936 | The global wheat gene expressional responses to fusaoctaxin A |
| 9.4 | ERP013829 | ERR1201765 | RNA-seq of coding RNA of wheat heads from 3, 6, 12, 24, 36, and 48 hours after inoculation of fungal pathogen Fusarium graminearum or mock inoculation |
| 9.3 | SRP279172 | SRR12539317 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.3 | SRP111489 | SRR5816322 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.3 | SRP321728 | SRR14673823 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | SRP156347 | SRR7644396 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.3 | SRP279172 | SRR12539318 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.3 | SRP111489 | SRR5816274 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.3 | SRP218071 | SRR9949287 | Combined analysis of transcriptome and metabolome to molecular mechanism research of source–sink modifications |
| 9.3 | ERP004714 | ERR424775 | Whole transcriptome sequencing of wheat 3B chromosome |
| 9.3 | SRP326239 | SRR14999756 | Transcriptome analysis of two near-isogenic lines with different NUE under normal nitrogen conditions in wheat |
| 9.3 | SRP366264 | SRR18502222 | Transcriptomic in grain and leaf tissues of a low-gluten RNAi wheat line. |
| 9.3 | ERP118497 | ERR3668576 | Effect of heat stress on developing wheat grain |
| 9.3 | SRP156347 | SRR7644337 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.3 | SRP102636 | SRR5383947 | Triticum aestivum cultivar:Luyuan502 Transcriptome or Gene expression |
| 9.3 | SRP274019 | SRR12341254 | Multi-omics Analyses Reveal Molecular Mechanisms of Potassium Deprivation Adaption in Wheat (Triticum aestivum L.) |
| 9.3 | SRP218071 | SRR9949288 | Combined analysis of transcriptome and metabolome to molecular mechanism research of source–sink modifications |
| 9.3 | SRP321728 | SRR14673887 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | SRP173230 | SRR8309968 | Characterization of QTL and eQTL linked with early Fusarium graminearum infection and deoxynivalenol levels in a Wuhan -1 x Nyubai doubled-haploid wheat population at two days post inoculation |
| 9.3 | SRP156347 | SRR7644335 | Integrated transcriptome and hormone profiling highlight the role of multiple phytohormone pathways in wheat resistance against fusarium head blight |
| 9.3 | SRP218071 | SRR9949289 | Combined analysis of transcriptome and metabolome to molecular mechanism research of source–sink modifications |
| 9.3 | SRP279172 | SRR12539332 | RNA-seq Analysis Reveals Different Drought Tolerance Mechanisms in Two Broadly Adapted Wheat Cultivars 'TAM 111' and 'TAM 112' |
| 9.3 | SRP115390 | SRR5931575 | Tissue-specific expression and phylogeny of ammonium and nitrate transporter genes in wheat |
| 9.3 | SRP173230 | SRR8309920 | Characterization of QTL and eQTL linked with early Fusarium graminearum infection and deoxynivalenol levels in a Wuhan -1 x Nyubai doubled-haploid wheat population at two days post inoculation |
| 9.3 | SRP111489 | SRR5816326 | Crown transcriptome analysis of Norstar (NO), Manitou (MA), and the near-isogenic lines (NIL) spring Norstar (SN) and winter Manitou (WM) under field conditions |
| 9.3 | SRP178272 | SRR8430165 | The Impact of Wheat Rht-B1b Semi-Dwarfing Allele on Photosynthesis and Seed Development under Field Conditions |
| 9.3 | SRP304900 | SRR13640911 | Next-Generation Sequencing Facilitates Quantitative Analysis of Transcriptomes Mechanism for Autophagy Inhibition Enhanced Salt Stress Sensitivity of Wheat Seedling |
| 9.3 | SRP091625 | SRR4426226 | Transcriptome association identifies regulators of wheat grain production |
| 9.3 | SRP321728 | SRR14673862 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | SRP075528 | SRR5337636 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | SRP146060 | SRR7166243 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | ERP004689 | SRR2983195 | Transcriptome-based association genetics in hexaploid wheat |
| 9.3 | SRP218071 | SRR9949294 | Combined analysis of transcriptome and metabolome to molecular mechanism research of source–sink modifications |
| 9.3 | SRP321728 | SRR14674094 | Triticum aestivum Transcriptome or Gene expression |
| 9.3 | SRP091625 | SRR4426244 | Transcriptome association identifies regulators of wheat grain production |
| 9.3 | ERP004714 | ERR424756 | Whole transcriptome sequencing of wheat 3B chromosome |
| 9.2 | ERP004714 | ERR424735 | Whole transcriptome sequencing of wheat 3B chromosome |
| 9.2 | SRP274019 | SRR12341253 | Multi-omics Analyses Reveal Molecular Mechanisms of Potassium Deprivation Adaption in Wheat (Triticum aestivum L.) |
| 9.2 | ERP004689 | SRR2983185 | Transcriptome-based association genetics in hexaploid wheat |
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