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1 AdoMet binding is accompanied by a reorientation between
2 AdoMet formation is catalyzed by S-adenosylmethionine sy
3 AdoMet recycling from 5'-methylthioadenosine (MTA) was b
4 AdoMet-dependent methyltransferases belong to multiple d
9 he methyl transfer reaction [p53-Lys4-NH 2 + AdoMet --> p53-Lys4-N(Me)H 2 (+) + AdoHcy] in the SET7/9
10 conformation of the Enz.Lys-N(Me)H(2)(+).(+)AdoMet has the methyl positioned to block formation of a
12 er formation of the SET7/9.p53-Lys4-NH 3 (+).AdoMet complex, the following events occur: (i) the appe
16 % reduction in hepatic S-adenosylmethionine (AdoMet) (p < 0.01) and a 3-fold increase in hepatic S-ad
18 for synthesis of both S-adenosylmethionine (AdoMet) and deoxythymidine monophosphate (dTMP), which a
20 iological methyl donor S-adenosylmethionine (AdoMet) can exist in two diastereoisomeric states with r
22 .1.99.17) is a radical S-adenosylmethionine (AdoMet) enzyme that uses a [4Fe-4S](+) cluster to reduct
25 a [4Fe-4S] cluster and S-adenosylmethionine (AdoMet) radical chemistry; the remainder of the reaction
27 alamin (Cbl)-dependent S-adenosylmethionine (AdoMet) radical enzyme, OxsB, and an HD-domain phosphohy
31 member of the radical S-adenosylmethionine (AdoMet) superfamily and catalyzes the complex chemical r
32 of a methyl group from S-adenosylmethionine (AdoMet) to a peptidylarginine on a protein substrate.
34 of methyl groups from S-adenosylmethionine (AdoMet) to acceptor lysine residues on histones and othe
37 enerated HMP when AIR, S-adenosylmethionine (AdoMet), and an appropriate reducing agent were present.
38 the PIMT co-substrate, S-adenosylmethionine (AdoMet), during panning permitted PIMT to retain aged ph
39 he Ki of MATalpha2 for S-adenosylmethionine (AdoMet), this allowed steady-state AdoMet level to rise.
40 ron-sulfur cluster and S-adenosylmethionine (AdoMet), thus placing it among the AdoMet radical superf
41 terically activated by S-adenosylmethionine (AdoMet), which binds to the regulatory domain and trigge
42 methyltransferases is S-adenosylmethionine (AdoMet), which in most cells is synthesized using methyl
44 Es are observed for an S-adenosylmethionine (AdoMet)-binary and abortive ternary complex containing 8
45 ransferases (KMTs) are S-adenosylmethionine (AdoMet)-dependent enzymes that catalyze the site-specifi
48 a mitochondrial human S-adenosylmethionine (AdoMet)-dependent methyltransferase and found it to meth
49 phosphocholine via two S-adenosylmethionine (AdoMet)-dependent phosphoethanolamine methyltransferases
53 e allosteric effector, S-adenosylmethionine (AdoMet); whereas T257M and T257I are inhibited, the othe
54 dical enzymes (GREs) by S-adenosylmethonine (AdoMet or SAM)-dependent enzymes has long been shown to
56 lly demonstrated that we could thereby alter AdoMet pools and increase or decrease demand on folate a
58 tion and reveal the ill-defined PfSET7 is an AdoMet-dependent histone H3 lysine methyltransferase wit
60 tridium perfringens are also the first of an AdoMet radical enzyme that performs dehydrogenase chemis
61 provides support for the establishment of an AdoMet radical structural motif that is likely common to
62 We report here that sinefungin (SIN), an AdoMet analog, inhibits several flaviviruses through sup
64 the AdoMet binding precedes DNA binding and AdoMet's methyl group is then transferred to an adenine
65 the most complete description of the cap and AdoMet binding poses and interactions within the enzyme'
67 results suggest that heme incorporation and AdoMet regulation in CBS are not correlated, possibly pr
70 0 nM folate led to imbalanced nucleotide and AdoMet pools only in cells with endogenously high polyam
73 The enzyme reacts with Lys-NH(3)(+) and (+)AdoMet species to provide an Enz.Lys-NH(3)(+).(+)AdoMet
74 S-Adenosylmethionine (SAM, also known as AdoMet) radical enzymes use SAM and a [4Fe-4S] cluster t
76 late depletion leads to an imbalance in both AdoMet and nucleotide pools, causing epigenetic and gene
78 alorimetry confirmed that each monomer bound AdoMet but with different binding affinities (K(d) = 52
80 we present the structure of hCBS with bound AdoMet, revealing the activated conformation of the huma
83 discuss the mechanism of hCBS activation by AdoMet and the properties of the AdoMet binding site, as
84 ervations demonstrate that CBS activation by AdoMet puzzlingly sensitizes the enzyme toward inhibitio
85 S rRNA, a conserved methylation catalyzed by AdoMet-dependent enzymes in all other characterized bact
86 binding to reduced CBS was also enhanced by AdoMet, although to a lesser extent ( approximately 2-fo
91 antly, CO and NO(*) binding was unchanged by AdoMet in a truncated form of CBS lacking the C-terminal
92 N(Lys4), and the angle Sdelta(AdoMet)-Cgamma(AdoMet)-N(Lys4) determine whether methyl transfer can oc
93 ing a [4Fe-4S] cluster to reductively cleave AdoMet to form a transient 5'-deoxyadenosyl radical and
94 a [4Fe-4S](+) cluster to reductively cleave AdoMet to methionine and a 5'-deoxyadenosyl radical that
95 tant enzymes were able to reductively cleave AdoMet, but none were able to produce a significant amou
96 active site of SET7/ 9 opens up the cofactor AdoMet binding channel so that solvent water molecules g
99 viously undescribed modification to the core AdoMet radical fold: instead of the canonical (beta/alph
101 of OxsB reveals the fold of a Cbl-dependent AdoMet radical enzyme, a family of enzymes with an estim
104 S-adenosyl-l-methionine (AdoMet), displayed AdoMet non-competitive and DNA competitive behavior.
108 (ii) substrate ionization to provide enzyme.AdoMet.Lys-NH2, and (iii) methyl transfer providing enzy
109 ermore, the product of one of these enzymes, AdoMet, is a regulator of SG assembly and composition.
110 -containing 8-mer peptide substrate and 1 eq AdoMet, conditions that allow for the first sulfur inser
111 cluster binding region between BtrN, fellow AdoMet radical dehydrogenase anSME, and molybdenum cofac
112 ), Asp(444), Gln(445), and Asp(538)) and for AdoMet-driven inter-domain communication (Phe(443), Asp(
114 tely determine the equilibrium constants for AdoMet binding to PFL-AE alone and in complex with PFL.
116 verified by mutagenesis to be important for AdoMet binding (Phe(443), Asp(444), Gln(445), and Asp(53
119 ate of 0.048 +/- 0.001 s(-1), with K(M)s for AdoMet and the p53 peptide of 0.031 +/- 0.01 muM and 0.6
121 ocysts are unusual in being able to generate AdoMet not only by the ubiquitous folate-dependent mecha
122 the conformation of Enz.Lys-N(Me)(2)H(+).(+)AdoMet has a methyl in position, which forbids the forma
124 in the ground state of SET7/9.Lys4-N(Me)H2+.AdoMet, and the second methyl transfer does not occur.
125 cSHMT-deficient mice exhibit altered hepatic AdoMet levels and uracil content in DNA, validating prev
126 a mechanistic proposal is put forth for how AdoMet radical chemistry is coopted to perform a dehydro
127 channel into the aqueous solvent, and (iii) AdoMet methylation of p53-Lys4-NH 2 to form p53-Lys4-N(M
128 deletion within the conserved motif impaired AdoMet binding and significantly decreased enzymatic act
129 red ability of protozoan parasites to import AdoMet might determine sinefungin's anti-infective spect
133 After four rounds, phage titer plateaued in AdoMet-containing pans, whereas titer declined in both c
134 rochemistry, where the potential of both its AdoMet radical and auxiliary [4Fe-4S] clusters can be me
135 ich has sequence similarity with ICMT in its AdoMet binding site but methylates different substrates,
136 OrfX was crystallized in the presence of its AdoMet substrate, we found that each monomer of the homo
137 not appear for proton dissociation from LSMT.AdoMet.Lys-N(Me)2H+, and a third methyl transfer does no
139 the methyl group from S-adenosyl methionine (AdoMet) to the N1 position of G37 in tRNA to synthesize
140 binant TrmO employs S-adenosyl-L-methionine (AdoMet) as a methyl donor to methylate t(6)A to form m(6
143 es are known to use S-adenosyl-l-methionine (AdoMet) as substrate; we have shown that 3',5'-cAMP bind
144 ogical methyl donor S-adenosyl-l-methionine (AdoMet) is spontaneously degraded by inversion of its su
145 cytosine C5 on the S-adenosyl-L-methionine (AdoMet) methyl group is concerted with formation of the
147 ethyl transfer from S-adenosyl-l-methionine (AdoMet) to glycine to form S-adenosyl-l-homocysteine and
148 d by the binding of S-adenosyl-l-methionine (AdoMet) to its regulatory domain, which activates its ca
149 a methyl group from S-adenosyl-L-methionine (AdoMet) to the 5-position of cytosine residues and there
150 methyl groups from S-adenosyl-L-methionine (AdoMet) to the epsilon-amino group of the target lysine
151 hyl donor cofactor, S-adenosyl-l-methionine (AdoMet), displayed AdoMet non-competitive and DNA compet
152 sulfonium center of S-adenosyl-L-methionine (AdoMet), generating methionine and a transient 5'-deoxya
153 th the methyl donor S-adenosyl-l-methionine (AdoMet), which is water-soluble, and the methyl acceptor
154 t it belongs to the S-adenosyl-L-methionine (AdoMet)-dependent alpha/beta-knot superfamily of SPOUT m
155 protein residues by S-adenosyl-L-methionine (AdoMet)-dependent methyltransferases impacts an array of
162 maining plant versions have lost one or more AdoMet (SAM)-binding residues while preserving their sub
164 e report the synthesis and activity of a new AdoMet analogue functionalized with a ketone group.
165 transfer reaction in the SET7/9 [Lys4-NH2 + AdoMet --> Lys4-N(Me)H2+ + AdoHcy] complex is DeltaG++ =
166 (SET7/9.Lys4-NH3+.AdoMet --> SET7/9.Lys4-NH2.AdoMet + H+) must be prior to the methylation by S-adeno
167 ars in the presence of AdoMet (LSMT.Lys-NH3+.AdoMet), but is not present immediately after methyl tra
170 ion, enzymes catalysing reactions of de novo AdoMet (MAT) and ornithine production (OrnPt) have more
171 78R-I, and P78R-II mutants in the absence of AdoMet are approximately 3-, 9-, and 3-fold lower than o
172 nalysis reveals that, even in the absence of AdoMet, the double mutant is locked in an activated conf
181 yme that catalyzes the reductive cleavage of AdoMet, generating methionine and a transient 5'-deoxyad
182 ignificant efforts toward the development of AdoMet analogues with the aim of transferring moieties o
184 ase SG formation, while chronic elevation of AdoMet produces SG remnants lacking proteins associated
186 nosine and binding of a second equivalent of AdoMet must be intermediate steps in the formation of bi
188 resents a convergent evolutionary feature of AdoMet-dependent methyltransferases, mediating a univers
190 proposed to coordinate the methyl groups of AdoMet and methyllysine within the SET domain active sit
194 framework for understanding the interplay of AdoMet and Cbl cofactors and expands the catalytic reper
195 ed the turnover rate and decreased the Km of AdoMet but did not affect the Km of the protein substrat
196 reduces the catalytic efficiency (kcat/Km of AdoMet) of ATXR5 up to 58-fold, highlighting the multifu
197 tion is run with substoichiometric levels of AdoMet or with the defective enzyme containing the Asn15
198 y SET7/9 histone lysine methyltransferase of AdoMet N-methylation of the transcriptional factor p53-L
199 The water channel appears in the presence of AdoMet (LSMT.Lys-NH3+.AdoMet), but is not present immedi
200 rved for wild-type enzyme in the presence of AdoMet, providing a structural rationale for loss of thi
204 otent AdoMetDC inhibitors, several series of AdoMet substrate analogues with a variety of substituent
205 e 68) behind the methyl-bearing sulfonium of AdoMet was previously shown to impair COMT activity by i
207 tives are presented for the potential use of AdoMet analogues in biology research, (epi)genetics and
208 een used to investigate the mechanisms of (+)AdoMet methylation of protein-Lys-NH(2) catalyzed by the
209 mine biosynthesis, due to the high demand on AdoMet pools, might be a factor in determining sensitivi
210 Since the BS active site holds only one AdoMet and one DTB, it follows that dissociation of meth
211 AdoMet-bound CBS regulatory domain shows one AdoMet molecule per monomer, at the interface between tw
212 ively cleave S-adenosyl-l-methionine (SAM or AdoMet) to generate a 5'-deoxyadenosyl radical that can
218 accessory proteins, two of which are radical AdoMet enzymes (HydE, HydG) and one of which is a GTPase
219 oadenosine had been shown to inhibit radical AdoMet enzymes, suggesting that ThiC is distinct from ot
221 The radical-S-adenosylmethionine (radical-AdoMet) enzyme MiaB catalyzes the posttranscriptional me
223 the three conserved cysteines in the radical-AdoMet motif (Cys150, Cys154, and Cys157) as previously
224 aG++ of the second methyl transfer reaction (AdoMet + Lys-N(Me)H --> AdoHcy + Lys-N(Me)2H+) at the QM
225 allosteric communication with the regulatory AdoMet-binding domain, and reveal the potential for inde
228 nzymes that are capable of recognizing (R,S)-AdoMet and using it to methylate homocysteine to form me
229 aneous intracellular generation of the (R,S)-AdoMet degradation product but for utilizing environment
231 We show that yeast cells can take up (R,S)-AdoMet from the medium using the same transporter (Sam3)
233 Unlike its precursor, (S,S)-AdoMet, (R,S)-AdoMet has no known cellular function and may have some
236 e that Sam4 recognizes both (S,S)- and (R,S)-AdoMet, but that its activity is much higher with the R,
243 g mechanistic insights into how radical SAM (AdoMet) enzymes install posttranslational modifications
244 ta(AdoMet) and N(Lys4), and the angle Sdelta(AdoMet)-Cgamma(AdoMet)-N(Lys4) determine whether methyl
245 a water channel, the distance between Sdelta(AdoMet) and N(Lys4), and the angle Sdelta(AdoMet)-Cgamma
246 azoan PRMT7 homologues in lacking the second AdoMet binding-like domain that is required for activity
248 hich the cap binding promotes the subsequent AdoMet binding, consistent with the previously suggested
251 extended propargylic moieties from synthetic AdoMet cofactor analogs to duplex miRNAs or siRNAs.
258 ed catalytic motif (DPP(Y/F)) as well as the AdoMet-binding motif (FXGXG) by site-directed mutagenesi
259 hat these charged interactions formed by the AdoMet sulfonium cation are stronger than typical CH...O
260 hyltransferase encoded by TMT1 catalyzes the AdoMet-dependent monomethylation of 3-isopropylmalate, a
261 xygen (CH...O) hydrogen bonds coordinate the AdoMet methyl group in different methyltransferases irre
263 ntly linked to an adenosine moiety as in the AdoMet cofactor to generate transition state mimics.
264 t at least two of the three hydrogens in the AdoMet methyl group engage in CH ... O hydrogen bonding.
266 tivation by AdoMet and the properties of the AdoMet binding site, as well as the responsiveness of th
268 culations to examine the interactions of the AdoMet methyl group in the active site of the human KMT
269 O hydrogen bonds constrain the motion of the AdoMet methyl group, potentially facilitating its alignm
271 In addition, the structure shows that the AdoMet-binding pocket, formed by a deep trefoil knot, co
273 ion between the two modules, relative to the AdoMet-free basal state, to form interactions with AdoMe
274 n in an ordered Bi Bi mechanism in which the AdoMet binding precedes DNA binding and AdoMet's methyl
277 nt that abolishes CH...O hydrogen bonding to AdoMet illustrate that these interactions are important
278 protein residues that form hydrogen bonds to AdoMet and DTB are important for retaining intermediates
279 ys kinetic parameters that are comparable to AdoMet and exhibits multiple turnovers with enzyme.
283 hat contains homology to ~1,400 other unique AdoMet radical enzymes proposed to use [4Fe-4S] clusters
292 own that 3',5'-cAMP binds competitively with AdoMet to the S. aureus TrmD protein, indicating an over
293 n crystal structure of PfPMT in complex with AdoMet by single-wavelength anomalous dispersion phasing
294 dies demonstrate that, upon interaction with AdoMet, active ThiC from Salmonella enterica generates a
295 -free basal state, to form interactions with AdoMet via residues verified by mutagenesis to be import
296 mbiguously support an ordered mechanism with AdoMet binding as the initial step, followed by the subs
297 Treatment of ALS-derived motor neurons with AdoMet also suppresses the formation of TDP-43-positive
298 are (i) combination of enzyme.Lys-NH3+ with AdoMet, (ii) substrate ionization to provide enzyme.AdoM
300 finding that increased gene dosage of yeast AdoMet synthase plus cap guanine-N7 methyltransferase af