RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @KrystynaWisson: MYELOPEROXIDASE & GRAPHENE https://t.co/s3I9SBaO1L https://t.co/5ymO8C2poK https://t.co/KqmWn282Rx https://t.co/wQ…
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @KrystynaWisson: MYELOPEROXIDASE & GRAPHENE https://t.co/s3I9SBaO1L https://t.co/5ymO8C2poK https://t.co/KqmWn282Rx https://t.co/wQ…
RT @KrystynaWisson: MYELOPEROXIDASE & GRAPHENE https://t.co/s3I9SBaO1L https://t.co/5ymO8C2poK https://t.co/KqmWn282Rx https://t.co/wQ…
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @KrystynaWisson: MYELOPEROXIDASE & GRAPHENE https://t.co/s3I9SBaO1L https://t.co/5ymO8C2poK https://t.co/KqmWn282Rx https://t.co/wQ…
RT @KrystynaWisson: MYELOPEROXIDASE & GRAPHENE https://t.co/s3I9SBaO1L https://t.co/5ymO8C2poK https://t.co/KqmWn282Rx https://t.co/wQ…
酒やたばこでグラフェン物質を分解できる ミエロペルオキシダーゼを酵素誘導しとくと よかったりするのかも。
RT @AaronOtsuka: グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
グラフェン物質は人間が持つミエロペルオキシダーゼ(Myeloperoxidase (MPO)という酵素で分解できる。実はこの酵素を促進するには酒をタバコが良いかも? https://t.co/AEfUCuKp0f
RT @angew_chem: We congratulate Alberto Bianco @unistra on being distinguished with a @CNRS Silver Medal. @INC_CNRS Bianco was recently f…
Congratulations Prof. Alberto Bianco for receiving @CNRS Silver medal for 2019. Proud to be part of your Research Team.
RT @angew_chem: We congratulate Alberto Bianco @unistra on being distinguished with a @CNRS Silver Medal. @INC_CNRS Bianco was recently f…
RT @angew_chem: We congratulate Alberto Bianco @unistra on being distinguished with a @CNRS Silver Medal. @INC_CNRS Bianco was recently f…
We congratulate Alberto Bianco @unistra on being distinguished with a @CNRS Silver Medal. @INC_CNRS Bianco was recently featured in an #AuthorProfile: https://t.co/eHMmdq36IM His latest paper with us: https://t.co/Na41H35jRv https://t.co/NtH1Hs2UBb
Degradation of Single‐Layer and Few‐Layer #Graphene by Neutrophil Myeloperoxidase https://t.co/opAFvQox2V https://t.co/gtlrB36J2p
Un dels problemes potencials dels nanomaterials (i el grafè n'és un) es la seva bioacumulació, la descoberta de la capacitat de biodegradació per l'enzim Myeloperoxidasa, produïda per neutròfils humans ofereix certa seguretat a la seva utilització. https:/
RT @nanowiki: Degradation of Single‐Layer and Few‐Layer Graphene by Neutrophil Myeloperoxidase https://t.co/HdoUCcIxYm #graphene #nanomedic…
Degradation of Single‐Layer and Few‐Layer Graphene by Neutrophil Myeloperoxidase https://t.co/HdoUCcIxYm #graphene #nanomedicine
RT @angew_chem: Degradation of Single-Layer and Few-Layer Graphene by Neutrophil Myeloperoxidase (Bianco) https://t.co/INJPmMM7pz https://t…
Not biopersistent! Degradation of Single‐Layer and Few‐Layer Graphene by Neutrophil Myeloperoxidase https://t.co/l8e4jjrYmn
RT @angew_chem: Degradation of Single-Layer and Few-Layer Graphene by Neutrophil Myeloperoxidase (Bianco) https://t.co/INJPmMM7pz https://t…
RT @gbepete: Our work (from @CNRS) by Kurapati @Uncover_NATURE et. al, accepted in Angew. Chemie @angew_chem shows that pristine graphene w…
RT @gbepete: Our work (from @CNRS) by Kurapati @Uncover_NATURE et. al, accepted in Angew. Chemie @angew_chem shows that pristine graphene w…
RT @gbepete: Our work (from @CNRS) by Kurapati @Uncover_NATURE et. al, accepted in Angew. Chemie @angew_chem shows that pristine graphene w…
"Biodegradability of graphene is one of the fundamental parameters determining the fate of this material in vivo." #graphene #biotech #nanotech #2dmaterials #thefutureisgraphene #btcorp
Our work (from @CNRS) by Kurapati @Uncover_NATURE et. al, accepted in Angew. Chemie @angew_chem shows that pristine graphene with minimum defects can be degraded by human myeloperoxidase, indicating that the human immune system has strategies to degrade #g
Our work (from @CNRS) by Kurapati @Uncover_NATURE et. al, accepted in Angew. Chem. Int. Ed @angew_chem shows that pristine graphene with minimum defects can be degraded by human myeloperoxidase, indicating that the human immune system has strategies to deg
RT @angew_chem: Degradation of Single-Layer and Few-Layer Graphene by Neutrophil Myeloperoxidase (Bianco) https://t.co/INJPmMM7pz https://t…
Degradation of Single-Layer and Few-Layer Graphene by Neutrophil Myeloperoxidase (Bianco) https://t.co/INJPmMM7pz https://t.co/svqZXdJfCv
Single layer and few layer graphene are degraded by neutrophil myeloperoxidase - Kurapati - - Angewandte Chemie International Edition - Wiley Online Library https://t.co/A7EBDxScW3