PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 2997158-4 1985 Specific activities of the altered iso-1-cytochromes c were estimated in vivo by growth of the strains in lactate medium; compared to normal iso-1-cytochrome c with Pro-76, the following activities were associated with the following replacements: approximately 90% for Val-76, approximately 60% for Thr-76, approximately 30% for Ser-76, approximately 20% for Ile-76, and 0% for Leu-76. Leucine 378-381 threonine ammonia-lyase ILV1 Saccharomyces cerevisiae S288C 35-40 220234-4 1979 Specific activities of the iso-1-cytochromes c were estimated by growth of strains on lactate medium and are as follows, in terms of the normal, for iso-1-cytochromes c altered specifically in the ways shown: 100% for phenylalanine 64; 25% for tyrosine 64; between 0 and 25% for leucine 64; 100% for phenylalanine 45, cysteine 64; 25% for phenylalanine 45, serine 64; between 0 and 25% for phenylalanine 45, glycine 64, alanine 65; and 0% for serine 64, for cysteine 64, and for glycine 64, alanine 65 iso-1-cytochromes c. The results demonstrate that small residues of glycine, serine, and cysteine at position 64 are incompatible with function; they imply that many of the 10 amino acids accessible by single base-pair substitution but not observed in primary site revertants also are incompatible with function; and they show that large hydrophobic residues of phenylalanine, leucine, and tyrosine at position 64 are capable of restoring at least partial function. Leucine 279-286 threonine ammonia-lyase ILV1 Saccharomyces cerevisiae S288C 27-32 220234-4 1979 Specific activities of the iso-1-cytochromes c were estimated by growth of strains on lactate medium and are as follows, in terms of the normal, for iso-1-cytochromes c altered specifically in the ways shown: 100% for phenylalanine 64; 25% for tyrosine 64; between 0 and 25% for leucine 64; 100% for phenylalanine 45, cysteine 64; 25% for phenylalanine 45, serine 64; between 0 and 25% for phenylalanine 45, glycine 64, alanine 65; and 0% for serine 64, for cysteine 64, and for glycine 64, alanine 65 iso-1-cytochromes c. The results demonstrate that small residues of glycine, serine, and cysteine at position 64 are incompatible with function; they imply that many of the 10 amino acids accessible by single base-pair substitution but not observed in primary site revertants also are incompatible with function; and they show that large hydrophobic residues of phenylalanine, leucine, and tyrosine at position 64 are capable of restoring at least partial function. Leucine 279-286 threonine ammonia-lyase ILV1 Saccharomyces cerevisiae S288C 149-154 220234-4 1979 Specific activities of the iso-1-cytochromes c were estimated by growth of strains on lactate medium and are as follows, in terms of the normal, for iso-1-cytochromes c altered specifically in the ways shown: 100% for phenylalanine 64; 25% for tyrosine 64; between 0 and 25% for leucine 64; 100% for phenylalanine 45, cysteine 64; 25% for phenylalanine 45, serine 64; between 0 and 25% for phenylalanine 45, glycine 64, alanine 65; and 0% for serine 64, for cysteine 64, and for glycine 64, alanine 65 iso-1-cytochromes c. The results demonstrate that small residues of glycine, serine, and cysteine at position 64 are incompatible with function; they imply that many of the 10 amino acids accessible by single base-pair substitution but not observed in primary site revertants also are incompatible with function; and they show that large hydrophobic residues of phenylalanine, leucine, and tyrosine at position 64 are capable of restoring at least partial function. Leucine 279-286 threonine ammonia-lyase ILV1 Saccharomyces cerevisiae S288C 149-154