Ribonucleases are found in considerable quantities in the pancreas of a number of mammalian taxa ... more Ribonucleases are found in considerable quantities in the pancreas of a number of mammalian taxa and a few reptiles. The ribonuclease content varies greatly in different species. Large quantities are found in ruminants and species that have a ruminant-like digestion and in a number of species with coecal digestion. This is a response to the necessity of digesting large amounts of RNA derived from the microflora of the stomach of ruminants or species with ruminant-like digestion or of the coecum of species with coecal digestion. The amino acid sequence of pancreatic ribonuclease from the chromosomal species 2n = 60 of the mole rat, superspecies Spalax Ehrenbergi was determined. From the comparison of the sequence with those of other mammalian species we found that Spalax diverged from the myomorph rodent branch before the divergence of the Muridae (mouse, rat) from the Cricetidae (hamster, muskrat). Spalax ribonuclease shares several amino acid residues with other myomorph rodent species. These are not or only rarely observed outside this rodent suborder. Although the ribonuclease content varies greatly in different mammalian species, the variation in content between individuals within a species is small. Spalax is an exception to this with ribonuclease contents varying over more than an order of magnitude in different individuals. Ribonucleases isolated from the chromosomal species 2n = 52, 2n = 58 and 2n = 60 have identical elution positions on reversed-phase HPLC. The enzyme from the 2n = 54 species, however, elutes at a slightly earlier elution position. No amino acid sequence differences have been found hitherto between the ribonucleases of the four chromosomal species of Spalax ehrenbergi occurring in Israel. However, due to lack of material we were unable to determine more than about 20% of the sequence of the enzyme from the 2n = 54 species, which is the oldest offshoot.
The enzyme alcohol dehydrogenase (ADH) from several naturally occurring ADH variants of Drosophil... more The enzyme alcohol dehydrogenase (ADH) from several naturally occurring ADH variants of Drosophila melanogaster and Drosophila simulans was isolated. Affinity chromatography with the ligand Cibacron Blue and elution with NAD+ showed similar behavior for D. melanogaster ADH-FF, ADH-71k, and D. simulans ADH. Introduction of a second Cibacron Blue affinity chromatography step, with gradient elution with NAD+, resulted in pure and stable enzymes. D. melanogaster ADH-SS cannot be eluted from the affinity chromatography column at a high concentration of NAD+ and required a pH gradient for its purification, preceded by a wash step with a high concentration of NAD+. Hybrid Drosophila melanogaster alcohol dehydrogenase FS has been isolated from heterozygous flies, using affinity chromatography with first elution at a high concentration NAD+, directly followed by affinity chromatography elution with a pH gradient. Incubation of equal amounts of pure homodimers of Drosophila melanogaster ADH-F...
The complete primary and tertiary structure of p-hydroxybenzoate hydroxylase is now known. The am... more The complete primary and tertiary structure of p-hydroxybenzoate hydroxylase is now known. The amino acid sequences of the two largest CNBr peptides have been fitted to the electron-density map at 0.25-nm resolution. The parts of the polypeptide chain contributing the residues to the FAD-binding site and the residues of the substrate-binding site have been identified. The active site is located in a large hydrophobic area enclosed by all domains of the enzyme structure. Here the substrate, p-hydroxybenzoate, is bound near, but not in direct contact with, the isoalloxazine ring system of FAD. Many side chains from the C-terminal part of the polypeptide chain are involved in subunit-subunit interactions. In the center of one of the largely hydrophobic contact areas between the subunits, a cluster of six aromatic amino acids was found.
Phylogenetic analyses of secretory ribonucleases or RNases 1 have shown that gene duplication eve... more Phylogenetic analyses of secretory ribonucleases or RNases 1 have shown that gene duplication events, giving rise to three paralogous genes (pancreatic, seminal and brain RNase), occurred during the evolution of ancestral ruminants. A higher number of paralogous sequences are present in chevrotain (Tragulus javanicus), the earliest diverged taxon within the ruminants. Two pancreatic RNase sequences were identified, one encoding the pancreatic enzyme, the other encoding a pseudogene. The identity of the pancreatic enzyme was confirmed by isolation of the protein and N-terminal sequence analysis. It is the most acidic pancreatic ribonuclease identified so far. Formation of the mature enzyme requires cleavage by signal peptidase of a peptide bond between two glutamic acid residues. The seminal-type RNase gene shows features of a pseudogene, like orthologous genes in other ruminants investigated with the exception of the bovine species. The brain-type RNase gene of chevrotain is expressed in brain tissue. A hybrid gene with a pancreatic-type N-terminal and a brain-type C-terminal sequence has been identified but nothing is known about its expression. Phylogenetic analysis of RNase 1 sequences of six ruminant, three other artiodactyl and two whale species support previous findings that two gene duplications occurred in a ruminant ancestor. Three distinct groups of pancreatic, seminal-type and brain-type RNases have been identified and within each group the chevrotain sequence it the first to diverge. In taxa with duplications of the RNase gene (ruminants and camels) the gene evolved at twice as fast than in taxa in which only one gene could be demonstrated; in ruminants there was an approximately fourfold increase directly after the duplications and then a slowing in evolutionary rate.
The primary structure of hevamine, an enzyme with lysozyme/chitinase activity from Hevea brasilie... more The primary structure of hevamine, an enzyme with lysozyme/chitinase activity from Hevea brasiliensis latex, has been determined predominantly with conventional non-automatic methods. The positions of three disulfide bridges have been determined. The sequence has about 60% identity with that of a chitinase from cucumber and 95% with the N-terminal sequence of the lysozyme/chitinase of Parthenocissus quinquefolia. The half-cystine residues in hevein and cucumber chitinase are located at identical positions. Hevamine is a basic protein from the lutoids (vacuoles) of rubber latex and may have a role in plugging the latex vessels and cessation of latex flow. The differences in cellular location, charge properties and sequence between hevamine and cucumber chitinase are similar to those between class I and class II chitinases from tobacco and other plant species.
... Volume 204, number l FEBS 3946 August 1986 Structure of arthropod hemocyanin Henk J. Bak, Ben... more ... Volume 204, number l FEBS 3946 August 1986 Structure of arthropod hemocyanin Henk J. Bak, Ben Neuteboom, Peter A. Jekel, Nell M. Soeter ... c of Panulirus Table 1 Comparison of the percentage differences between amino acids of complete subunits Pint a Euryd Eury e Lim II ...
Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 1996
The primary structure of hemocyanin from the spiny lobster Palinurus vulgaris was determined usin... more The primary structure of hemocyanin from the spiny lobster Palinurus vulgaris was determined using a mixture of at least four slightly different subunits. Heterogeneities were observed in 32 (5%) of the positions. The amino acid sequence differs at about 20% of the positions from that of subunit a of Panulirus interruptus hemocyanin.
The amino acid sequence of golden hamster pancreatic ribonuclease was determined by analysis of t... more The amino acid sequence of golden hamster pancreatic ribonuclease was determined by analysis of tryptic, chymotryptic, thermolytic, and CNBr peptides and by automatic sequence analysis of the intact protein. Like all RNases with an Asn-Met-Thr sequence at positions 34-36, hamster RNase is glycosylated at position 34 with a complex-type carbohydrated chain. Val-17, Ala-18, His-55, His-76 and Ala-90 have never been observed in other pancreatic RNases. Ala-90 replaces Ser-90, which had been invariant in all mammalian RNases studied so far. The amino acid sequence of hamster RNase differs at 15 positions from that of another Cricetidae rodent, the muskrat. The similarity between both ribonucleases was used to confirm a few less certain parts of the muskrat RNase sequence. The replacement rate of the RNases of the Cricetidae appeared to be higher than the average rate in the mammals, but much lower than the rate in another myomorph family, the Muridae (mouse and rat). Possibly, in many respects, the Cricetidae underwent less evolutionary change in recent times than the evolutionarily highly successful Muridae.
Ribonucleases are found in considerable quantities in the pancreas of a number of mammalian taxa ... more Ribonucleases are found in considerable quantities in the pancreas of a number of mammalian taxa and a few reptiles. The ribonuclease content varies greatly in different species. Large quantities are found in ruminants and species that have a ruminant-like digestion and in a number of species with coecal digestion. This is a response to the necessity of digesting large amounts of RNA derived from the microflora of the stomach of ruminants or species with ruminant-like digestion or of the coecum of species with coecal digestion. The amino acid sequence of pancreatic ribonuclease from the chromosomal species 2n = 60 of the mole rat, superspecies Spalax Ehrenbergi was determined. From the comparison of the sequence with those of other mammalian species we found that Spalax diverged from the myomorph rodent branch before the divergence of the Muridae (mouse, rat) from the Cricetidae (hamster, muskrat). Spalax ribonuclease shares several amino acid residues with other myomorph rodent species. These are not or only rarely observed outside this rodent suborder. Although the ribonuclease content varies greatly in different mammalian species, the variation in content between individuals within a species is small. Spalax is an exception to this with ribonuclease contents varying over more than an order of magnitude in different individuals. Ribonucleases isolated from the chromosomal species 2n = 52, 2n = 58 and 2n = 60 have identical elution positions on reversed-phase HPLC. The enzyme from the 2n = 54 species, however, elutes at a slightly earlier elution position. No amino acid sequence differences have been found hitherto between the ribonucleases of the four chromosomal species of Spalax ehrenbergi occurring in Israel. However, due to lack of material we were unable to determine more than about 20% of the sequence of the enzyme from the 2n = 54 species, which is the oldest offshoot.
The enzyme alcohol dehydrogenase (ADH) from several naturally occurring ADH variants of Drosophil... more The enzyme alcohol dehydrogenase (ADH) from several naturally occurring ADH variants of Drosophila melanogaster and Drosophila simulans was isolated. Affinity chromatography with the ligand Cibacron Blue and elution with NAD+ showed similar behavior for D. melanogaster ADH-FF, ADH-71k, and D. simulans ADH. Introduction of a second Cibacron Blue affinity chromatography step, with gradient elution with NAD+, resulted in pure and stable enzymes. D. melanogaster ADH-SS cannot be eluted from the affinity chromatography column at a high concentration of NAD+ and required a pH gradient for its purification, preceded by a wash step with a high concentration of NAD+. Hybrid Drosophila melanogaster alcohol dehydrogenase FS has been isolated from heterozygous flies, using affinity chromatography with first elution at a high concentration NAD+, directly followed by affinity chromatography elution with a pH gradient. Incubation of equal amounts of pure homodimers of Drosophila melanogaster ADH-F...
The complete primary and tertiary structure of p-hydroxybenzoate hydroxylase is now known. The am... more The complete primary and tertiary structure of p-hydroxybenzoate hydroxylase is now known. The amino acid sequences of the two largest CNBr peptides have been fitted to the electron-density map at 0.25-nm resolution. The parts of the polypeptide chain contributing the residues to the FAD-binding site and the residues of the substrate-binding site have been identified. The active site is located in a large hydrophobic area enclosed by all domains of the enzyme structure. Here the substrate, p-hydroxybenzoate, is bound near, but not in direct contact with, the isoalloxazine ring system of FAD. Many side chains from the C-terminal part of the polypeptide chain are involved in subunit-subunit interactions. In the center of one of the largely hydrophobic contact areas between the subunits, a cluster of six aromatic amino acids was found.
Phylogenetic analyses of secretory ribonucleases or RNases 1 have shown that gene duplication eve... more Phylogenetic analyses of secretory ribonucleases or RNases 1 have shown that gene duplication events, giving rise to three paralogous genes (pancreatic, seminal and brain RNase), occurred during the evolution of ancestral ruminants. A higher number of paralogous sequences are present in chevrotain (Tragulus javanicus), the earliest diverged taxon within the ruminants. Two pancreatic RNase sequences were identified, one encoding the pancreatic enzyme, the other encoding a pseudogene. The identity of the pancreatic enzyme was confirmed by isolation of the protein and N-terminal sequence analysis. It is the most acidic pancreatic ribonuclease identified so far. Formation of the mature enzyme requires cleavage by signal peptidase of a peptide bond between two glutamic acid residues. The seminal-type RNase gene shows features of a pseudogene, like orthologous genes in other ruminants investigated with the exception of the bovine species. The brain-type RNase gene of chevrotain is expressed in brain tissue. A hybrid gene with a pancreatic-type N-terminal and a brain-type C-terminal sequence has been identified but nothing is known about its expression. Phylogenetic analysis of RNase 1 sequences of six ruminant, three other artiodactyl and two whale species support previous findings that two gene duplications occurred in a ruminant ancestor. Three distinct groups of pancreatic, seminal-type and brain-type RNases have been identified and within each group the chevrotain sequence it the first to diverge. In taxa with duplications of the RNase gene (ruminants and camels) the gene evolved at twice as fast than in taxa in which only one gene could be demonstrated; in ruminants there was an approximately fourfold increase directly after the duplications and then a slowing in evolutionary rate.
The primary structure of hevamine, an enzyme with lysozyme/chitinase activity from Hevea brasilie... more The primary structure of hevamine, an enzyme with lysozyme/chitinase activity from Hevea brasiliensis latex, has been determined predominantly with conventional non-automatic methods. The positions of three disulfide bridges have been determined. The sequence has about 60% identity with that of a chitinase from cucumber and 95% with the N-terminal sequence of the lysozyme/chitinase of Parthenocissus quinquefolia. The half-cystine residues in hevein and cucumber chitinase are located at identical positions. Hevamine is a basic protein from the lutoids (vacuoles) of rubber latex and may have a role in plugging the latex vessels and cessation of latex flow. The differences in cellular location, charge properties and sequence between hevamine and cucumber chitinase are similar to those between class I and class II chitinases from tobacco and other plant species.
... Volume 204, number l FEBS 3946 August 1986 Structure of arthropod hemocyanin Henk J. Bak, Ben... more ... Volume 204, number l FEBS 3946 August 1986 Structure of arthropod hemocyanin Henk J. Bak, Ben Neuteboom, Peter A. Jekel, Nell M. Soeter ... c of Panulirus Table 1 Comparison of the percentage differences between amino acids of complete subunits Pint a Euryd Eury e Lim II ...
Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, 1996
The primary structure of hemocyanin from the spiny lobster Palinurus vulgaris was determined usin... more The primary structure of hemocyanin from the spiny lobster Palinurus vulgaris was determined using a mixture of at least four slightly different subunits. Heterogeneities were observed in 32 (5%) of the positions. The amino acid sequence differs at about 20% of the positions from that of subunit a of Panulirus interruptus hemocyanin.
The amino acid sequence of golden hamster pancreatic ribonuclease was determined by analysis of t... more The amino acid sequence of golden hamster pancreatic ribonuclease was determined by analysis of tryptic, chymotryptic, thermolytic, and CNBr peptides and by automatic sequence analysis of the intact protein. Like all RNases with an Asn-Met-Thr sequence at positions 34-36, hamster RNase is glycosylated at position 34 with a complex-type carbohydrated chain. Val-17, Ala-18, His-55, His-76 and Ala-90 have never been observed in other pancreatic RNases. Ala-90 replaces Ser-90, which had been invariant in all mammalian RNases studied so far. The amino acid sequence of hamster RNase differs at 15 positions from that of another Cricetidae rodent, the muskrat. The similarity between both ribonucleases was used to confirm a few less certain parts of the muskrat RNase sequence. The replacement rate of the RNases of the Cricetidae appeared to be higher than the average rate in the mammals, but much lower than the rate in another myomorph family, the Muridae (mouse and rat). Possibly, in many respects, the Cricetidae underwent less evolutionary change in recent times than the evolutionarily highly successful Muridae.
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