Acid-resistant and physiological pH-responsive DNA hydrogel composed of A-motif and i-motif toward oral insulin delivery
An acid-resistant DNA hydrogel that is stable in an extremely acidic environment with pH as
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
Acid-Resistant and Physiological pH-Responsive DNA Hydrogel Composed of A-Motif and i-Motif toward Oral Insulin Delivery
Y Hu, S Gao, H Lu, JY Ying - Journal of the American …, 2022 - pubmed.ncbi.nlm.nih.gov
An acid-resistant DNA hydrogel that is stable in an extremely acidic environment with pH as
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
Acid-Resistant and Physiological pH-Responsive DNA Hydrogel Composed of A-Motif and i-Motif toward Oral Insulin Delivery.
Y Hu, S Gao, H Lu, JY Ying - Journal of the American Chemical …, 2022 - europepmc.org
An acid-resistant DNA hydrogel that is stable in an extremely acidic environment with pH as
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
low as 1.2 has not been reported before, largely due to the instability of DNA-hybridized …
[PDF][PDF] Acid-Resistant and Physiological pH-Responsive DNA Hydrogel Com-posed of A-Motif and I-Motif Toward Oral Insulin Delivery
Y Hu, S Gao, H Lu, JY Ying - oar.a-star.edu.sg
An acid-resistant DNA hydrogel that is stable in extremely acidic environment with pH as low
as 1.2 has not been reported before, largely due to the instability of DNA hybridized …
as 1.2 has not been reported before, largely due to the instability of DNA hybridized …