Abstract
The binding of the mononucleotide inhibitors 2'-GMP, 3'-GMP, and 5'-GMP to genetically engineered ribonuclease T1 has been investigated by conventional inhibition kinetics, fluorimetric titrations, molecular modeling, and fast relaxation techniques. The fluorimetric titrations in conjunction with molecular modeling revealed that apart from the already known primary binding site, three to four additional sites are present on the enzyme's surface. The association constants obtained from the fluorimetric titrations and the temperature jump experiments range between 3.1 x 10(6) M-1 and 4.3 x 10(6) M-1, indicating that the binding of the mononucleotides to the specific binding site of ribonuclease T1 is at least one order of magnitude tighter than has been anticipated so far. The kinetics of binding are nearly diffusion controlled with a kon determined for 2'-GMP and 3'-GMP, as (5.0 +/- 0.5 x 10(9) and 6.1 +/- 0.5 x 10(9) M-1, s-1 and koff as 1.2 +/- 0.2 x 10(3) and 2.0 +/- 0.3 x 10(3) s-1, respectively. Molecular modeling studies indicate that all three nucleotides are able to bind via their phosphate group to a positively charged array of surface amino acids including His27, His40, Lys41, and most probably Lys25 without obvious stereochemical hindrance. We propose that RNA wraps around RNase T1 in a similar fashion via phosphate binding when enzymatic hydrolysis occurs.
Highlights
From the Slnstitut fur Kristallographie, Freie Uniuersitiit Berlin, Takustrasse 6 and the VFritz-Haber-Institut, Max-Phmk-Geselkchaft, Faradayweg4-6, W-1000Berlin 33, Federal Republic of Germany
Sugio et al investigated metric titrations in conjunction with molecular mod- the crystal structure of the mother enzyme complexed with opetsm1etlfr0iamaen‘tnrshpgMyetees-nrbrom’etiabnvoatotednunanaidrinotlneehgn4edjeu.ud3smcetilhnXtfeperzao,o1yttemi0mtxdah‘peeprMse’tea-shret’rioest,tmoutiffefrhnrlonfuedoautoimcssrcrperaai.ematdtcTihndniefhegigtitterceiiaiottbcbahrlnreisaaanetsttwlaodiocdtienhniyeasgesntiaiktbosenn3inisdtn.oe1adwctrooiXhnnefneg-prwtM3mii’o-io-oItnGnhnlseo,MtccnhaouuPennlcadpv(lr1ereieomon9sdtt8eoiii5donnd)eneteaailwlnnilanhodsigenribwkrhsitiiwttebtuohmeidrtsii2hpoe2a’ens-v‘rG-aew,etMx3iuenp‘rrPv-eee,er(ausij1mntnui9dgdme8aen58ptrt(’e)ts-I.ad,GLkftTMelhunJePo)ibrn’tieiomnxdpRpeiateNnrrrigaiacmlsolteeefiltnTtrhtai1sne-., ribonuclease T1 is at leastoneorder ofmagnitude order to qualitatively characterize the binding of the inhibitighter than has been anticipatedso far
The binding mode of 2’-GMP to RNase of binding are nearly diffusion controlled with a ko, T1 is known from x-ray crystallographic studies (Heinemann dllooetsgearanmnddin62e..d102ffor00.25.’3-XGXlMolgPoM3a-sn’,d’, s3-rl’-eGasnpMdecPkto,ivaffesals(y5.1.M0.2offle00c..u52laXXr and Saenger, 1982;Arni et al, 1988).In the medium resolution crystal structure of the complex between RNase T1 and 3‘GMP (Sugio et al, 1985),the ribose and phosphate region of modeling studies indicate thatll three nucleotides are the inhibitor are so disordered that they are not indicated in able to bind via their phosphate group to a positively the electron density map
Summary
The eluates of several chromatographic runs werepooled, filtered through 0.22-pM sterile Millex filters, divided into 1-ml aliquots containing 50 pM of enzyme each, and stored a t -30 "C. Curves obtained a t two different substrate concentrations have been selected at a time and theirintersection point have been determined. The projection of this point on the x axis yields the value of an apparent dissociation constant for the respective inhibitor (we have used association rather than dissociation constants for better comparison with literature data). This procedure has been repeated for all non-overlapping combinations of the five different substrate combinations yielding a total of 10 separateestimates for the association constant of the examined inhibitor.
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