Relationship between BVRT and fNIRS in regions of interest (ROIs). by Nakako Okamoto (18501452)

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<i>dSmad2</i> mutant clones display increased dILP2 in IPCs and decreased dILP5 in CPCs. by Samuel L. Goldsmith (5533913)

Meta-regression analysis of FA values in DTI. by Nan Wang (21935)

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The forest plot shows subgroup of field strength about FA values(A) and ADC values(B). by Nan Wang (21935)

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Meta-regression analysis of ADC values in DTI. by Nan Wang (21935)

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Demographic and clinical characteristics of the participants in the 11 studies. by Nan Wang (21935)

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Flow chart of the study process. by Nan Wang (21935)

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Search strategy in the Pubmed database. by Nan Wang (21935)

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NOS evaluation score table in the 11 studies. by Nan Wang (21935)

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The characteristics of imaging parameters in the 11 studies. by Nan Wang (21935)

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GSEA analysis of DEmRNAs in fetal side placental tissue of PCOS and control group. by Ningning Xie (12054996)

Immunohistochemical analysis of p-Akt expression in various experimental groups showing negative expression in control group, marked increased expression along the extended fibrous... by Rehab F. Abdel-Rahman (11886404)

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…We find that side chain substitution at the distal site results in decreased substrate binding that destabilizes the closed active form but is not sufficient to preclude the adoption of a fully closed, near-transition state conformation. …”