ISSN:
1432-1432
Keywords:
Ribonuclease evolution
;
Parallel evolution
;
Evolutionary rate
;
Glycoprotein
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Summary The primary structures of pancreatic ribonucleases from 26 species (18 artiodactyls, horse, whale, 5 rodents and turtle) are known. Several species contain identical ribonucleases (cow/bison; sheep/goat), other species show polymorphism (arabian camel) or the presence of two structural gene loci (guinea pig pancreas contains two ribonucleases that differ at 31 positions). 26 different sequences (including the ribonuclease from bovine seminal plasma which is paralogous to the pancreatic ribonucleases) were used to construct a most parsimonious tree. A second tree that most closely approximates current biological opinion requires 402 whereas the most parsimonious tree requires 389 nucleotide substitutions. The “artiodactyl” part of the most parsimonious tree conforms quite well with the biological one of this order, except for the position of the giraffe which is placed with the pronghorn. Other parts of the most parsimonious tree agree less with the biological tree, probably as a result of the occurrence of many parallel and back substitutions. Bovine seminal ribonuclease was found to be the result of a gene duplication which occurred before the divergence of the true ruminants, but after the divergence of this group from the cameloids. The evolutionary rate of ribonuclease was found to be 390, 3.0 and 11 nucleotide substitutions per 109 yrs per ribonuclease gene, codon and covarion respectively. However, there is much variation in evolutionary rate in different taxa. Values ranging from about 100 (in the bovidae) to about 700 (in the rodents) nucleotide substitutions per 109 yrs per gene were found. A method for counting parallel and back mutations is presented. The 389 nucleotide substitutions in the most parsimonious tree occur at 88 codon positions; 154 of them are the result of parallel and back mutations. Parallel evolution to a similar structure, including the presence of 2 sites with carbohydrate, was demonstrated in an extensive region at the surface of pig and guinea pig ribonuclease B. The presence of carbohydrate probably is important in a number of species. A correlation between the presence of heavily glycosidated ribonucleases and coecal digestion was observed. Hypothetical sequences of ancestral ungulate ribonucleases contain many recognition sites for carbohydrate attachment; this suggests that herbivores with coecal digestion might have preceded the true ruminants in mammalian evolution.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01796134
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