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Article title matches
- Category:Linear free energy relationship (62 bytes)
1: List of pages with the keyword Linear free energy relationship - Category:Energy transduction (50 bytes)
1: List of pages with the keyword Energy transduction - Category:Excitation energy transfer (57 bytes)
1: List of pages with the keyword Excitation energy transfer - Category:Guanidino kinase cellular energy metabolism (74 bytes)
1: ... pages with the keyword Guanidino kinase cellular energy metabolism - Category:Energy metabolism (48 bytes)
1: List of pages with the keyword Energy metabolism - Category:Energy conservation (50 bytes)
1: List of pages with the keyword Energy conservation - Category:Energy transfer (46 bytes)
1: List of pages with the keyword Energy transfer - Category:Dexter energy transfer (53 bytes)
1: List of pages with the keyword Dexter energy transfer - Category:Cellular energy metabolism (57 bytes)
1: List of pages with the keyword Cellular energy metabolism - Category:Lanthanide-based resonance energy transfer (73 bytes)
1: ...pages with the keyword Lanthanide-based resonance energy transfer - Category:Binding free energy (50 bytes)
1: List of pages with the keyword Binding free energy - Category:Binding free energy hydrolase (60 bytes)
1: List of pages with the keyword Binding free energy hydrolase - Category:Energy (37 bytes)
1: List of pages with the keyword Energy - Category:Reorganization energy (52 bytes)
1: List of pages with the keyword Reorganization energy - Category:High-energy enediolate intermediate (66 bytes)
1: List of pages with the keyword High-energy enediolate intermediate - Category:Ultra high energy (48 bytes)
1: List of pages with the keyword Ultra high energy - Category:High energy (42 bytes)
1: List of pages with the keyword High energy - Category:Energy-minimized average structure (65 bytes)
1: List of pages with the keyword Energy-minimized average structure - Category:Energy landscape (47 bytes)
1: List of pages with the keyword Energy landscape - Category:Binding energy (45 bytes)
1: List of pages with the keyword Binding energy
Page text matches
- 2src (9,009 bytes)
13: ...hat is critical for osteoclast function. Promotes energy production in osteoclasts by activating mitochond... - 1e4v (4,128 bytes)
11: ...AMP. This small ubiquitous enzyme involved in the energy metabolism and nucleotide synthesis, is essential... - 1e4y (4,127 bytes)
11: ...AMP. This small ubiquitous enzyme involved in the energy metabolism and nucleotide synthesis, is essential... - 1lwd (2,725 bytes)
11: ..._PIG] Plays a role in intermediary metabolism and energy production. It may tightly associate or interact ... - 2tpt (2,754 bytes)
11: ... compounds and in their utilization as carbon and energy sources, or in the rescue of pyrimidine bases for... - 1pfd (4,398 bytes)
24: ...structure was obtained by a process of restrained energy minimization. Root-mean-square (rmsd) deviation v... - 1wcq (4,443 bytes)
11: ...VI] To release sialic acids for use as carbon and energy sources for this non-pathogenic bacterium while i... - 2jaz (5,113 bytes)
24: ...HNH motif. We found, using fluorescence resonance energy transfer (FRET) assays, that the DNA hydrolysis a... - 2jad (5,491 bytes)
11: ...nergy transfer. Fluoresces in vivo upon receiving energy from the Ca(2+)-activated photoprotein aequorin. - 1h71 (4,299 bytes)
24: ...ation and transformation of the substrates at low energy costs. Here, we report the structures of two crys... - 1dy8 (9,553 bytes)
24: ...d. The P1 residue contributes most to the binding energy, whereas P2-P4 side chains are partially solvent ... - 1axs (4,541 bytes)
24: ...ogue. This analysis indicates that the activation energy depends on a complex balance of several stereoele...
26: The interplay between binding energy and catalysis in the evolution of a catalytic ant... - 1axx (4,918 bytes)
24: ...amily has been further refined through restrained energy minimization. The final RMSD values with respect ... - 4ayo (3,374 bytes)
14: ...ion state. QM/MM calculations reveal how the free energy landscape of isolated alpha-D-mannose is molded o... - 2jcg (4,215 bytes)
11: ...atabolite activation (CCA), which ensures optimal energy usage under diverse conditions. - 1hbm (6,326 bytes)
24: ...ductase (MCR) catalyzes the final reaction of the energy conserving pathway of methanogenic archaea in whi... - 1hbu (6,014 bytes)
24: ...ductase (MCR) catalyzes the final reaction of the energy conserving pathway of methanogenic archaea in whi... - 1hbo (5,931 bytes)
24: ...ductase (MCR) catalyzes the final reaction of the energy conserving pathway of methanogenic archaea in whi... - 2ccw (5,138 bytes)
24: ...gas phase structure is 13.0 kcal mol(-1) lower in energy. - 1e5j (4,818 bytes)
24: ...ics, but instead are capable of utilising binding energy from numerous subsites, spanning either side of t...
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