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Keyword [Molecular Basis]
Result: 101 - 120 | Page: 6 of 6
101. Molecular basis of loss-of-function and gain-of-function CHO glycosylation mutants
102. Mimicry of cocaine by anti-idiotypic antibodies: Molecular basis and antagonist drug design
103. Molecular basis of cancer cell recognition and killing by human natural killer cells
104. Molecular basis of estrogenic endocrine disruptor-estrogen receptor interactions: A comparison among species
105. Molecular basis for tolerance to sterol biosynthesis inhibitors in Candida species and Saccharomyces cerevisiae
106. Molecular basis of integrin alpha(E)beta(7) recognition of E-cadherin
107. Molecular basis of glycogen storage disease type 1
108. Molecular basis for the cachexia disease syndrome of citrus
109. The molecular basis of receptor-ligand-receptor interactions: Studies of the immunophilin FKBP12
110. Molecular basis of paradoxical muscle hypertrophy in dystrophin-deficient muscle
111. The molecular basis for calcium-dependent regulation of cardiac structure and function
112. Decorin induces tumor cell mitophagy via mitostatin as the molecular basis for the suppression of angiogenesis
113. Molecular Basis of Histone Acetyl-lysine Recognition by the BRPF1 Bromodomain
114. The Molecular Basis For Decreased Hypoxia-induced HIF-1? Transactivation In High Glucose Exposure And Medicine Intervention
115. Study Of Anti-diabetic Effect Of Mulberry (Morus Alba L.) Leaf Polysaccharide MLP ? And Its Mechanism
116. The Molecular Basis Of Microtubule Dynamics And Its Regulation
117. Mechanistic Insights Into The Interaction Of The MOG1 Protein With Cardiac Sodium Channel Na_V1.5 Clarify The Molecular Basis Of Brugada Syndrome
118. The CDR3?1 Sequence Analysis Of Tumor-infiltration ??l Lymphocyte (??1TIL) And The Molecular Basis For TCR?/?1 CDR3?1 Binding With Tumor Antigens
119. A Preliminary Study On The Association Of Patterns With The Intracranial Metastasis Potentiality Of Nasopharyngeal Carcinoma And Its Molecular Basis Responsible For The Pathogenesis
120. Molecular Basis Of The Interaction Between Human Anti-PHD2 Single-chain Variable Fragment And Antigen
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