Ribonuclease specificity

FIGURE l.l Hydrophobic interaction and reversed-phase chromatography (HIC-RPC). Two-dimensional separation of proteins and alkylbenzenes in consecutive HIC and RPC modes. Column 100 X 8 mm i.d. HIC mobile phase, gradient decreasing from 1.7 to 0 mol/liter ammonium sulfate in 0.02 mol/liter phosphate buffer solution (pH 7) in 15 min. RPC mobile phase, 0.02 mol/liter phosphate buffer solution (pH 7) acetonitrile (65 35 vol/vol) flow rate, I ml/min UV detection 254 nm. Peaks (I) cytochrome c, (2) ribonuclease A, (3) conalbumin, (4) lysozyme, (5) soybean trypsin inhibitor, (6) benzene, (7) toluene, (8) ethylbenzene, (9) propylbenzene, (10) butylbenzene, and (II) amylbenzene. [Reprinted from J. M. J. Frechet (1996). Pore-size specific modification as an approach to a separation media for single-column, two-dimensional HPLC, Am. Lab. 28, 18, p. 31. Copyright 1996 by International Scientific Communications, Inc.. Shelton, CT.]... 

Drought also has a profound effect on protein synthesis. In many plant tissues, a reduced water potential causes a reduction of total protein synthesis and a rapid dissociation of polyribosomes. The latter has been shown not to be the consequence of increase in ribonuclease activity (Hsiao, 1973 Dhindsa Bewley, 1976). For a specific protein, Jacobsen, Hanson Chandler (1986) have shown in barley leaves that water stress enhances the synthesis of one of the a-amylase isozymes. Using a cDNA probe they found that water-stressed leaves contained much more a-amylase mRNA than unstressed plants. 

However, there are a number of other miscellaneous biological roles played by this complex. The [Co(NH3)6]3+ ion has been shown to inhibit the hammerhead ribozyme by displacing a Mn2+ ion from the active site.576 However, [Co(NH3)6]3+ does not inhibit ribonuclease H (RNase),577 topoisomerase I,578 or hairpin ribozyme,579 which require activation by Mg2+ ions. The conclusions from these studies were that an outer sphere complex formation between the enzyme and Mgaq2+ is occuring rather than specific coordination of the divalent ion to the protein. These results are in contrast to DNase I inhibition by the same hexaammine complex. Inhibition of glucose-induced insulin secretion from pancreatic cells by [Co(NH3)6]3+ has been found.580 Intracellular injection of [Co(NH3)6]3+ into a neurone has been found to cause characteristic changes to the structure of its mitochondria, and this offers a simple technique to label neuronal profiles for examination of their ultrastructures.581... 

This technique has been described as a general method of studying protein-protein interactions as well as a method for investigating the three-dimensional structure of individual proteins (Muller et al., 2001 Back et al., 2003 Dihazi and Sinz, 2003 Sinz, 2003 Sinz, 2006). It also has been used for the study of the interactions of cytochrome C and ribonuclease A (Pearson et al., 2002), to investigate the interaction of calmodulin with a specific peptide binder (Kalkhof et al., 2005a Schmidt et al., 2005), and for probing laminin self-interaction (Kalkhof et al., 2005b). 

If polyribonucleotides are treated simultaneously with methoxylamine and bisulphite, cytidine residues are converted into 5,6-dihydro-7V4-methoxycytidine-6-sulphonate,154 and uridine into 5,6-dihydrouridine-6-sulphonate.155 Treatment with dilute ammonia regenerates the uridine residues, leaving the dihydrocytidine derivatives unaffected. When only the cytidine residues have been derivatized, pancreatic ribonuclease becomes uridyl ribonuclease, since it is unable to cleave the chain on the 3 -side of the modified cytidine.154 This allows the isolation of blocks of modified cytidine residues. T2 ribonuclease may also be used. Alternatively, a ribonuclease from Physarum polycephalum has been found to hydrolyse CpX links very slowly, allowing the isolation of cytidine blocks.156 If both uridine and cytidine residues are modified, T2 ribonuclease acts as puryl ribonuclease, allowing the isolation of cumulative blocks of pyrimidines.155 This ability to alter the specificity of nuclease cleavage is a useful tool in sequence analysis. 

Studies of proteolytic fragments of staphylococcal nuclease (Tan-iuchi and Anfinsen, 1969) and RNase A (Taniuchi, 1970) seemed to support this view. Taniuchi (1970), in summary remarks, said Thus, the minimum information of the specific folding of a protein requiring almost the entire amino acid sequence is observed with both staph-yloccocal nuclease and bovine pancreatic ribonuclease. ... 

Despite considerable biochemical work, high-resolution crystal structure determination of native RNase A and S, and some medium-resolution studies of RNase A-inhibitor complexes, a number of questions existed concerning the details of the catalytic mechanism and the role of specific amino acids. Study of the low-temperature kinetics and three-dimensional structures of the significant steps of the ribonuclease reaction was designed to address the following questions. 

In recent years, several papers appeared in the literature concerning NMR and X-ray studies of thermostable ribonucleases. Among archaebacteria, several histone-like proteins from Sulfolobus strains have been identified and grouped into molecular mass classes. From the 7 kDa class, Sac7e from S. acidocaldarius and Sso7d from S. solfataricus, possessing DNA binding activity in combination with non-specific RNase activity, were identified. ... 

Among the specific enzymes whose activity has been reported to be decreased after in vitro ozone exposure are papain, glyceraldehyde-3-phosphate dehydrogenase, lysozyme, ribonuclease, and acetylcholinesterase. The latter enzyme appears to be particulady susceptible to free-radical and oxidative states. A loss in acetylcholinesterase activity has been reported in the red cells of humans and mice that inhaled ozone. However, there are only minimal amounts of this enzyme in lupg tissue, and, although it has been suggested that acetylcholinesterase is important in bronchial tract ciliary activity, there is no direct evidence to support this conjecture. 

In addition to the enzymes that catalyse the formation of nucleotides and polynucleotides, a large number of catabolic systems exist which operate at all levels of the internucleotide pathways. The ribonucleases and deoxyribonucleases that degrade polynucleotides are probably not significantly involved in purine analogue metabolism, but the enzymes which dephosphorylate nucleoside 5 -monophosphates are known to attack analogue nucleotides and may be of some importance to their in vivo activity. Phosphatases of low specificity are abundant in many tissues [38], particularly the intestine [29]. Purified mammalian 5-nucleotidases hydrolyse only the nucleoside 5 monophosphates [28] and... 

This enzyme [EC 3.1.26.6], also known as endoribo-nuclease IV and poly(A)-specific ribonuclease, catalyzes the endonucleolytic cleavage of poly(A) to fragments terminated by 3 -hydroxyl and 5 -phosphate groups. Oligonucleotides are formed with an average chain length of ten. 

The question of enzyme specificity for irradiated polynucleotides is taken up in more detail in the recent review of Johns.11 The specificities of four enzymes, spleen phosphodiesterase, snake venom phosphodiesterase, pancreatic ribonuclease, and pancreatic deoxyribonuclease are discussed. 

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