ATTED-II : Expression viewer

Expression viewer

Gene annotation for LOC25491246

Species	mtr
Symbol	LOC25491246
Function^*	protein MANNAN SYNTHESIS-RELATED 1
Entrez Gene ID^*	25491246
Other ID	MTR_4g008200

Expression pattern of LOC25491246

Normalized expression (Base-2 logarithm)	Experiment ID	Sample ID	Source Name in annotation
14.1	SRP212693	SRR9623293	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
13.4	SRP212693	SRR9623292	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
13.2	SRP212693	SRR9623308	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
13.2	SRP212693	SRR9623303	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
13.1	SRP212693	SRR9623295	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
13.0	SRP212693	SRR9623307	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.9	SRP212693	SRR9623299	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.9	SRP212693	SRR9623301	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.9	SRP212693	SRR9623304	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.8	SRP212693	SRR9623302	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.8	SRP212693	SRR9623288	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.8	SRP212693	SRR9623291	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.7	SRP229031	SRR10416734	ACHILLEUS-RNASEQ
12.7	SRP212693	SRR9623290	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.6	SRP212693	SRR9623305	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.6	SRP212693	SRR9623289	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.6	SRP212693	SRR9623294	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.6	SRP212693	SRR9623310	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.5	SRP359760	SRR18015492	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
12.5	SRP077692	SRR3735578	Medicago truncatula Transcriptome or Gene expression
12.5	SRP316040	SRR14309949	Salt stress enhances early symbiotic gene expression in Medicago truncatula and induces a stress-specific set of rhizobium-responsive genes
12.5	SRP359760	SRR18015505	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
12.4	SRP077692	SRR3735577	Medicago truncatula Transcriptome or Gene expression
12.4	SRP212693	SRR9623306	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.4	SRP229031	SRR10416733	ACHILLEUS-RNASEQ
12.4	SRP212693	SRR9623298	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.4	SRP098557	SRR5217268	Ethylene signaling is important for isoflavonoid mediated resistance to Rhizoctonia solani in roots of Medicago truncatula
12.3	SRP018396	SRR670356	Medicago truncatula strain:Jemalong A17/J5 Transcriptome or Gene expression
12.3	SRP212693	SRR9623296	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.3	SRP359760	SRR18015507	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
12.3	SRP349926	SRR17176041	MT-EFFOR2019
12.3	SRP229031	SRR10416742	ACHILLEUS-RNASEQ
12.2	ERP015760	ERR1421751	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
12.2	ERP015760	ERR1421678	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
12.2	SRP229031	SRR10416724	ACHILLEUS-RNASEQ
12.2	ERP015760	ERR1421703	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
12.2	ERP015760	ERR1421642	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
12.2	SRP359760	SRR18015491	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
12.2	SRP349926	SRR17176042	MT-EFFOR2019
12.2	SRP098557	SRR5217269	Ethylene signaling is important for isoflavonoid mediated resistance to Rhizoctonia solani in roots of Medicago truncatula
12.2	ERP015760	ERR1421727	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
12.1	SRP212693	SRR9623309	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.1	SRP098557	SRR5217270	Ethylene signaling is important for isoflavonoid mediated resistance to Rhizoctonia solani in roots of Medicago truncatula
12.1	ERP118927	ERR3762980	Time-course transcriptome analysis of mature nodules in Medicago truncatula grown in split-root under different nitrogen (N) supply
12.1	SRP077692	SRR3735579	Medicago truncatula Transcriptome or Gene expression
12.1	SRP212693	SRR9623300	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.1	SRP158577	SRR7738228	The transcriptomic response to a short day to long day shift in the reference legume Medicago truncatula
12.1	SRP212693	SRR9623297	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.1	SRP229031	SRR10416741	ACHILLEUS-RNASEQ
12.1	SRP359760	SRR18015503	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
12.1	SRP323948	SRR14804682	Processing of NODULE INCEPTION controls transition to nitrogen fixation in root nodules
12.1	SRP323948	SRR14804681	Processing of NODULE INCEPTION controls transition to nitrogen fixation in root nodules
12.1	SRP018396	SRR670345	Medicago truncatula strain:Jemalong A17/J5 Transcriptome or Gene expression
12.1	SRP349933	SRR17176359	MT-DCRISPR2021-NODULES
12.0	SRP043103	SRR1377058	Medicago truncatula Transcriptome or Gene expression
12.0	SRP220100	SRR10058816	The U-box family genes in Medicago truncatula: key elements in response to salt, cold, and drought stresses
12.0	SRP220100	SRR10058823	The U-box family genes in Medicago truncatula: key elements in response to salt, cold, and drought stresses
12.0	SRP229031	SRR10416744	ACHILLEUS-RNASEQ
12.0	SRP212693	SRR9623281	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
12.0	SRP349933	SRR17176360	MT-DCRISPR2021-NODULES
12.0	SRP229031	SRR10416732	ACHILLEUS-RNASEQ
12.0	SRP158577	SRR7738226	The transcriptomic response to a short day to long day shift in the reference legume Medicago truncatula
12.0	SRP230996	SRR10506590	Effects of arbuscular mycorrhizal fungus Rhizophagus irregularis in Medicago truncatula (wild type and SUNN mutant)
12.0	SRP098557	SRR5217273	Ethylene signaling is important for isoflavonoid mediated resistance to Rhizoctonia solani in roots of Medicago truncatula
12.0	SRP098561	SRR5217385	RNA-seq of mycorrhizal Medicago truncatula roots under K+ deprivation
12.0	SRP098557	SRR5217272	Ethylene signaling is important for isoflavonoid mediated resistance to Rhizoctonia solani in roots of Medicago truncatula
12.0	SRP018396	SRR670353	Medicago truncatula strain:Jemalong A17/J5 Transcriptome or Gene expression
12.0	SRP229031	SRR10416723	ACHILLEUS-RNASEQ
12.0	SRP220100	SRR10058824	The U-box family genes in Medicago truncatula: key elements in response to salt, cold, and drought stresses
11.9	SRP349926	SRR17176074	MT-EFFOR2019
11.9	SRP349926	SRR17176071	MT-EFFOR2019
11.9	SRP077692	SRR3735556	Medicago truncatula Transcriptome or Gene expression
11.9	SRP349926	SRR17176046	MT-EFFOR2019
11.9	SRP212693	SRR9623356	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
11.9	SRP349933	SRR17176338	MT-DCRISPR2021-NODULES
11.9	SRP316040	SRR14309952	Salt stress enhances early symbiotic gene expression in Medicago truncatula and induces a stress-specific set of rhizobium-responsive genes
11.9	SRP229031	SRR10416743	ACHILLEUS-RNASEQ
11.9	SRP077692	SRR3735583	Medicago truncatula Transcriptome or Gene expression
11.9	SRP323948	SRR14804665	Processing of NODULE INCEPTION controls transition to nitrogen fixation in root nodules
11.9	SRP043103	SRR1377070	Medicago truncatula Transcriptome or Gene expression
11.9	SRP229031	SRR10416784	ACHILLEUS-RNASEQ
11.9	ERP015760	ERR1421699	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
11.9	SRP349933	SRR17176370	MT-DCRISPR2021-NODULES
11.9	SRP349926	SRR17176044	MT-EFFOR2019
11.9	SRP349926	SRR17176054	MT-EFFOR2019
11.9	SRP158577	SRR7738227	The transcriptomic response to a short day to long day shift in the reference legume Medicago truncatula
11.9	SRP349933	SRR17176337	MT-DCRISPR2021-NODULES
11.9	SRP359760	SRR18015485	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
11.9	SRP229031	SRR10416731	ACHILLEUS-RNASEQ
11.9	SRP359760	SRR18015506	Medicago truncatula seedling treatment with Pythium oligandrum oospores within in-vitro system.
11.8	SRP043103	SRR1377061	Medicago truncatula Transcriptome or Gene expression
11.8	SRP212693	SRR9623169	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
11.8	ERP105151	ERR2193165	CK dependent Rhizobium LCO induced signalling in Medicago truncatula
11.8	SRP212693	SRR9623150	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
11.8	SRP349926	SRR17176043	MT-EFFOR2019
11.8	SRP349926	SRR17176056	MT-EFFOR2019
11.8	ERP015760	ERR1421675	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula
11.8	SRP212693	SRR9623277	NODULE INCEPTION recruits the lateral root developmental program for symbiotic nodule organogenesis
11.8	SRP349926	SRR17176057	MT-EFFOR2019
11.8	ERP015760	ERR1421724	Longitudinal and Diurnal Experiments of M. hapla and M. truncatula

The output is the 100 samples with the largest contribution to the coexpression.

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