Results 81 to 90 of about 1,407,112 (259)
Analytical Chemistry for Assessing Medication Adherence [PDF]
The lack of adherence to medication is a growing public health problem worldwide and is costing many patients their chance to return to good health and healthcare systems billions of dollars.
Tanna, Sangeeta, Lawson, Graham
core +1 more source
Protein pyrophosphorylation by inositol pyrophosphates — detection, function, and regulation
Protein pyrophosphorylation is an unusual signaling mechanism that was discovered two decades ago. It can be driven by inositol pyrophosphate messengers and influences various cellular processes. Herein, we summarize the research progress and challenges of this field, covering pathways found to be regulated by this posttranslational modification as ...
Sarah Lampe +3 more
wiley +1 more source
The Literary Style of Muqābalah in Sūrah Al-Jāthiyah and Al-Ḥujurāt: An Objective study [PDF]
In this research entitled “The Literary Style of Muqābalah in Sūrah Al-Jāthiyah and Al-Ḥujurāt: An Objective study”, we studied the literary style of muqābalah and what is related thereof to ṭibāq in Sūrah Al-Jāthiyah and Al-Hujurāt, what it ...
Najia Bashir Mushtaha - +1 more
doaj +1 more source
Advances in Pharmaceutical Analytical Technology
The rapid development of new analytical methods has led to advances in many areas, from the formation of new pharmaceutical analytical technologies to the quality control of new drugs at different stages of enhancement and the search for new dosage forms
Alexis Oliva
core +1 more source
The Ile181Asn variant of human UDP‐xylose synthase (hUXS1), associated with a short‐stature genetic syndrome, has previously been reported as inactive. Our findings demonstrate that Ile181Asn‐hUXS1 retains catalytic activity similar to the wild‐type but exhibits reduced stability, a looser oligomeric state, and an increased tendency to precipitate ...
Tuo Li +2 more
wiley +1 more source
We reconstituted Synechocystis glycogen synthesis in vitro from purified enzymes and showed that two GlgA isoenzymes produce glycogen with different architectures: GlgA1 yields denser, highly branched glycogen, whereas GlgA2 synthesizes longer, less‐branched chains.
Kenric Lee +3 more
wiley +1 more source

