-
A novel mechanism of radiation-induced lung injury: METTL3 mediates fibrogenesis through N6-methyladenosine modification of YY1
Journal: Journal of Translational Medicine
引用产品:anti-Collagen I antibody(BS70155)
ApplicationWB
IF7.5
SpeciesHuman,Mouse
-
A novel mechanism of radiation-induced lung injury: METTL3 mediates fibrogenesis through N6-methyladenosine modification of YY1
Journal: Journal of Translational Medicine
引用产品:anti-Collagen I antibody(BS60771)
ApplicationWB
IF7.5
SpeciesHuman,Mouse
-
A novel mechanism of radiation-induced lung injury: METTL3 mediates fibrogenesis through N6-methyladenosine modification of YY1
Journal: Journal of Translational Medicine
引用产品:anti-GAPDH antibody(AP0063)
ApplicationWB
IF7.5
SpeciesHuman,Mouse
-
Cannabinoid Receptor 2 Agonism Demonstrates Therapeutic Potential in Experimental Models of Relevance to Diabetic Retinopathy
Journal: DIABETES
引用产品:citrate buffer (0.5 mol/L,pH 4.5)()
Application
IF7.5
Species
-
hUMSC-derived exosomes alleviate follicular interstitial cell autophagy by let-7a-5p/AMPK/mTOR axis in POI rats
Journal: Stem Cell Research & Therapy
引用产品:DAPI(BD5010)
Application
IF7.3
Species
-
hUMSC-derived exosomes alleviate follicular interstitial cell autophagy by let-7a-5p/AMPK/mTOR axis in POI rats
Journal: Stem Cell Research & Therapy
引用产品:anti-AMPK antibody(BS40316)
ApplicationWB
IF7.3
SpeciesRat
-
hUMSC-derived exosomes alleviate follicular interstitial cell autophagy by let-7a-5p/AMPK/mTOR axis in POI rats
Journal: Stem Cell Research & Therapy
引用产品:anti-Beclin antibody(MB0030)
ApplicationWB,IF
IF7.3
SpeciesRat
-
VCPIP1 potentiates innate immune responses by non-catalytically reducing the ubiquitination of IRAK1/2
Journal: Cell Reports
引用产品:anti-GAPDH antibody(MB001)
ApplicationWB
IF6.9
SpeciesMouse
-
MCC950 suppresses NLRP3-dependent neuroinflammation and ameliorates cognitive decline in a rat model of cerebral small vessel disease
Journal: Neural Regeneration Research
引用产品:Rabbit anti-Claudin-5 antibody(BS1069)
ApplicationWB
IF6.7
SpeciesRat
-
Multi-level evidence reveals PANK2 as a potential target of PFOA/PFOS-induced bone metabolism disruption: From network toxicology to in vitro validation
Journal: ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY
引用产品:anti-glyceraldehyde-3-phosphate dehydrogenase(GAPDH) antibody()
ApplicationWB
IF6.1
SpeciesHuman
