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D” as a justification for denying marriage rights to homosexuals, even suggesting that allowing homosexuals to marry might open the door for humans to marry robots. Opponents of Proposition 8 noted that banning homosexual marriage was as absurd as prohibiting interracial marriage (still illegal until 1967 in some states), itself a clear example of the long history of dehumanization toward non-Whites. The emerging research on anthropomorphism and dehumanization provides a theoretical account of these underlying processes, addresses the basic ways in which people are likely to represent others in terms of basic human capacities and rights, and documents the important consequences that result from this representation. Few social perceivers have difficulty identifying other humans in a biological sense, but it is much more complicated to identify them in a psychological sense.
Biotin (vitamin H, viamin B7 or 5-[(3aS,4S,6aR)-2-oxo-1,3,3a,4,6,6a-hexahydrothieno[3,4d]imidazol-4-yl]pentanoic acid) and lipoic acid (5-[(3R)-dithiolan-3-yl]pentanoic acid, also called 6,8-thioctic acid) share many similarities (Fig. 1). Both vitamins are essential for aerobic growth of E. coli and S. enterica whereas biotin is also required for growth of theseCorrespondence: John E. Cronan, Department of Microbiology, University of Illinois, B103 Chemical and Life Sciences Laboratory, 601 S. Goodwin Ave., Urbana, IL 61801, Phone: 217-333-7919, Fax: 217-244-6697, N-hexanoic-Try-Ile-(6)-amino hexanoic amide chemical information [email protected] under anaerobic conditions. Both biotin and lipoic acid must be covalently attached to their cognate proteins to perform their roles in cellular enzymology; the free vitamins are not physiologically useful (although free biotin plays an indirect regulatory role). The protein domains to which biotin and lipoic acid are attached have very similar 3-dimensional structures and the enzymes that perform the attachment of the two cofactors are members of the same protein family based on their structures. Thus, the speculation made many years ago (1) that biotin and lipoic arose together “late” in evolution is germane. Moreover, although the two molecules look to have little similarity when drawn as in Fig. 1, both are chiral. Biotin has a chair shape due to the C-N bonds whereas the ring of lipoic acid is skewed by the C-S bonds. Proteins recognize these structures in somewhat similar manners since the biotin binding protein, avidin, also shows significant (albeit much weaker) binding of lipoic acid and antibodies raised against one of the molecules as a hapten often bind to proteins modified with the other cofactor (2). Biotin and lipoic acid also share the property that they are attached to very few protein species. E. coli has only a single biotinylated protein, the AccB subunit of the essential enzyme, acetyl-CoA carboxylase whereas S. enterica has a second inducible biotinylated protein, the subunit of oxalacetate carboxylase (3?). E. coli has three 11-Deoxojervine dose lipoylated proteins, these are subunits of pyruvate dehydrogenase (PDH) and 2-oxoglutarate dehydrogenase (2OGDH), enzymes essential for aerobic growth, plus a third lipoylated protein induced by the presence of glycine that is a subunit of the glycine cleavage system of single carbon metabolism (6?). In each of these proteins the cofactor is attached to a lysine residue amino group of a domain of highly conserved structure. This domain is the N-terminal part of a lipoylated protein and the C-terminal part of a biotinylated.D” as a justification for denying marriage rights to homosexuals, even suggesting that allowing homosexuals to marry might open the door for humans to marry robots. Opponents of Proposition 8 noted that banning homosexual marriage was as absurd as prohibiting interracial marriage (still illegal until 1967 in some states), itself a clear example of the long history of dehumanization toward non-Whites. The emerging research on anthropomorphism and dehumanization provides a theoretical account of these underlying processes, addresses the basic ways in which people are likely to represent others in terms of basic human capacities and rights, and documents the important consequences that result from this representation. Few social perceivers have difficulty identifying other humans in a biological sense, but it is much more complicated to identify them in a psychological sense.
Biotin (vitamin H, viamin B7 or 5-[(3aS,4S,6aR)-2-oxo-1,3,3a,4,6,6a-hexahydrothieno[3,4d]imidazol-4-yl]pentanoic acid) and lipoic acid (5-[(3R)-dithiolan-3-yl]pentanoic acid, also called 6,8-thioctic acid) share many similarities (Fig. 1). Both vitamins are essential for aerobic growth of E. coli and S. enterica whereas biotin is also required for growth of theseCorrespondence: John E. Cronan, Department of Microbiology, University of Illinois, B103 Chemical and Life Sciences Laboratory, 601 S. Goodwin Ave., Urbana, IL 61801, Phone: 217-333-7919, Fax: 217-244-6697, [email protected] under anaerobic conditions. Both biotin and lipoic acid must be covalently attached to their cognate proteins to perform their roles in cellular enzymology; the free vitamins are not physiologically useful (although free biotin plays an indirect regulatory role). The protein domains to which biotin and lipoic acid are attached have very similar 3-dimensional structures and the enzymes that perform the attachment of the two cofactors are members of the same protein family based on their structures. Thus, the speculation made many years ago (1) that biotin and lipoic arose together “late” in evolution is germane. Moreover, although the two molecules look to have little similarity when drawn as in Fig. 1, both are chiral. Biotin has a chair shape due to the C-N bonds whereas the ring of lipoic acid is skewed by the C-S bonds. Proteins recognize these structures in somewhat similar manners since the biotin binding protein, avidin, also shows significant (albeit much weaker) binding of lipoic acid and antibodies raised against one of the molecules as a hapten often bind to proteins modified with the other cofactor (2). Biotin and lipoic acid also share the property that they are attached to very few protein species. E. coli has only a single biotinylated protein, the AccB subunit of the essential enzyme, acetyl-CoA carboxylase whereas S. enterica has a second inducible biotinylated protein, the subunit of oxalacetate carboxylase (3?). E. coli has three lipoylated proteins, these are subunits of pyruvate dehydrogenase (PDH) and 2-oxoglutarate dehydrogenase (2OGDH), enzymes essential for aerobic growth, plus a third lipoylated protein induced by the presence of glycine that is a subunit of the glycine cleavage system of single carbon metabolism (6?). In each of these proteins the cofactor is attached to a lysine residue amino group of a domain of highly conserved structure. This domain is the N-terminal part of a lipoylated protein and the C-terminal part of a biotinylated.

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Author: GTPase atpase