RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
RT @MyAgeGroup: Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
ROS levels, H3K4Me3 and implications for ageing... wow! @LiamT_Tweets @ClionaNi @CathalMcCrory1 @ClionaOfarrelly
Early-life ROS it is not that bad😉 https://t.co/qvtWVewURe
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @schneiderleonid: The Nature study was in C. elegans, a worm without any dividing soma cells. But everyone blames stupid journalists. ht…
Really enjoyed reading this fascinating paper! https://t.co/XgBFPwM5bZ https://t.co/HN7cHE4b5g
RT @TMerry_NZ: Early life ROS sensitive epigenetic regulation may influence health/life span. Cool concept @nature #ROS #antioxidants http…
RT @TMerry_NZ: Early life ROS sensitive epigenetic regulation may influence health/life span. Cool concept @nature #ROS #antioxidants http…
ストレス🔜寿命延長説
RT @MyAgeGroup: Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
RT @Bio_stations: 若い時のストレスが寿命を延ばすかも!という論文 線虫の系で、発生早期に酸化ストレスを多く受けるほど寿命が長いことを発見。メカニズムとしてエピジェネ状態の変化をみている 遺伝的要因によらずに寿命が決まるメカニズム、という点でとても面白いです…
RT @Bio_stations: 若い時のストレスが寿命を延ばすかも!という論文 線虫の系で、発生早期に酸化ストレスを多く受けるほど寿命が長いことを発見。メカニズムとしてエピジェネ状態の変化をみている 遺伝的要因によらずに寿命が決まるメカニズム、という点でとても面白いです…
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
遺伝子の発現も免疫反応に似て、一度風邪を引くと次はひかない(免疫やタンパクがすばやく生成される)みたいなのある。メチル化は活性の場合も不活性化の場合もあるけど年取るとメチル化か進んでDNAに蓋をされたようになって全体的に不活性化の度合いが強まる。だから風邪引くのも意味ある。
RT @Bio_stations: 若い時のストレスが寿命を延ばすかも!という論文 線虫の系で、発生早期に酸化ストレスを多く受けるほど寿命が長いことを発見。メカニズムとしてエピジェネ状態の変化をみている 遺伝的要因によらずに寿命が決まるメカニズム、という点でとても面白いです…
RT @Bio_stations: 若い時のストレスが寿命を延ばすかも!という論文 線虫の系で、発生早期に酸化ストレスを多く受けるほど寿命が長いことを発見。メカニズムとしてエピジェネ状態の変化をみている 遺伝的要因によらずに寿命が決まるメカニズム、という点でとても面白いです…
若い時のストレスが寿命を延ばすかも!という論文 線虫の系で、発生早期に酸化ストレスを多く受けるほど寿命が長いことを発見。メカニズムとしてエピジェネ状態の変化をみている 遺伝的要因によらずに寿命が決まるメカニズム、という点でとても面白いです! https://t.co/q1tdwBsnge
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
Extremely provoking, yet fascinating!!!
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
Early life ROS sensitive epigenetic regulation may influence health/life span. Cool concept @nature #ROS #antioxidants https://t.co/hEICt6YYEq
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @MyAgeGroup: Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
RT @artofbiology: Connecting dots between Metabolism, Epigenetics and Ageing. Developmental ROS individualizes organismal stress resistance…
Connecting dots between Metabolism, Epigenetics and Ageing. Developmental ROS individualizes organismal stress resistance and lifespan | Nature https://t.co/WkmuwJBfAf
RT @MyAgeGroup: Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
RT @Parikki: Developmental ROS individualizes organismal stress resistance and lifespan | Nature https://t.co/x5TWmh5RxV
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
Developmental ROS individualizes organismal stress resistance and lifespan https://t.co/TJ0m1cV2it
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
RT @LocasaleLab: There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does somethin…
There is a ~20 yr controversy on whether H3K4Me3 has any function. Many today deny it. It almost certainly does something and the specificity is very interesting. But this new @nature study states a lot - it underlies the effects of ROS and aging? ht
Variation in endogenous developmental ROS shapes the epigenome to influence stress resistance and lifespan #mitohormesis https://t.co/DMnbEmY587
Developmental ROS individualizes organismal stress resistance and lifespan | Nature https://t.co/x5TWmh5RxV
RT @MyAgeGroup: Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
Developmental ROS individualizes organismal stress resistance and lifespan. WM. https://t.co/MHh06YSTTA
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
Transient spike in #ROS increases stress resistance and #lifespan by reducing #H3K4me3 histone methylation in C.Elegans #epigenetics #metabolism #aging
RT @aginghighlights: H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.c…
H3K4me3 is a redox-sensitive histone modification that regulates C. elegans lifespan and stress resistance https://t.co/qfE83FRVEw
link between early-life events, ROS-sensitive epigenetic marks, stress resistance and lifespan https://t.co/qpgOLwkTqb