RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @melikedonertas: A Quantitative Proteome Map of the Human Body: Cell https://t.co/YxlVbVTp7d
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Love it
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
A Quantitative Proteome Map of the Human Body https://t.co/PF8EF7sh5f
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Kirschner hardest hit
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Top #evolution story: A Quantitative Proteome Map of the Human Body: Cell https://t.co/C1jlqvhw4Z, see more https://t.co/JsCgxIxnb4
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Damn the girlies are fighting
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
@ctwatson29 @SmithLab_UofL
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
Fascinating study on tissue specific protein expression in the human body. Spoiler - it’s not the same as mRNA expression #ScienceTwitter
RT @slavov_n: Proteins known to be disrupted by disease-associated mutations are enriched in tissues that manifest disease-related pathophy…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
A Quantitative Proteome Map of the Human Body https://t.co/jcuLfqDbNI
RT @melikedonertas: A Quantitative Proteome Map of the Human Body: Cell https://t.co/YxlVbVTp7d
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Eric_Chevet: A Quantitative Proteome Map of the Human Body https://t.co/AQXM8sVYU9
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Spot the missing organ https://t.co/yV70YP58pG
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Ribosome profiling perhaps
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
Discordance of RNA and protein enrichment and tissue-specific distribution of enzymes possibly explaining phenotypes in disease https://t.co/iWqqkJYqEN
RT @Ruth_Walks: Really cool paper comparing protein to RNA levels across 32 normal human tissues. 6,357 proteins were present in all 32 tis…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @Loose_Lab_Rat: A Quantitative Proteome Map of the Human Body https://t.co/Uvx5MhjvE2
新しいヒトプロテオームマップの論文!ナイスな情報になりそう。
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @ArgelAV: Regulation of gene expression at the level of mRNA translation is key!
Regulation of gene expression at the level of mRNA translation is key!
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
A Quantitative Proteome Map of the Human Body https://t.co/Uvx5MhjvE2
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…
RT @melikedonertas: A Quantitative Proteome Map of the Human Body: Cell https://t.co/YxlVbVTp7d
RT @JasonSynaptic: “our study demonstrated that protein tissue-enrichment information can explain phenotypes of genetic diseases, which can…