Literature for peptidase M24.001: methionyl aminopeptidase 1 (Escherichia-type)

(Topics flags: A Assay, S Structure, M Mutation, P Specificity, I Inhibitor, K Knockout, E Expression, V Review. To select only the references relevant to a single topic, click the link above. See explanation.)

2024
1. Tan,R., Hoare,M., Bellomio,P., Broas,S., Camacho,K., Swovick,K., Welle,K.A., Hryhorenko,J.R. and Ghaemmaghami,S.
   Formylation facilitates the reduction of oxidized initiator methionines
   Proc Natl Acad Sci U S A121, e2403880121-e2403880121. PubMed  Europe PubMed DOI
2023
2. Gamerdinger,M., Jia,M., Schloemer,R., Rabl,L., Jaskolowski,M., Khakzar,K.M., Ulusoy,Z., Wallisch,A., Jomaa,A., Hunaeus,G., Scaiola,A., Diederichs,K., Ban,N. and Deuerling,E.
   NAC controls cotranslational N-terminal methionine excision in eukaryotes
   Science380, 1238-1243. PubMed  Europe PubMed DOI
3. Zhang,M., He,S., Han,X., Cui,J., Wang,H., Huo,X., Yan,F., Feng,L., Wang,C. and Ma,X.
   Discovery of Potential Antituberculosis Agents Targeted Methionine Aminopeptidase 1 of Mycobacterium tuberculosis by the Developed Fluorescent Probe
   Anal Chem95, 16210-16215. PubMed  Europe PubMed DOI
2022
4. Juhas,M., Pallabothula,V.S.K., Grabrijan,K., Simovicova,M., Jandourek,O., Konecna,K., Barta,P., Paterova,P., Gobec,S., Sosic,I. and Zitko,J.
   Design, synthesis and biological evaluation of substituted 3-amino-N-(thiazol-2-yl)pyrazine-2-carboxamides as inhibitors of mycobacterial methionine aminopeptidase 1
   Bioorg Chem118, 105489-105489. PubMed  Europe PubMed DOI
5. Pasquini,M., Grosjean,N., Hixson,K.K., Nicora,C.D., Yee,E.F., Lipton,M., Blaby,I.K., Haley,J.D. and Blaby-Haas,C.E.
   Zng1 is a GTP-dependent zinc transferase needed for activation of methionine aminopeptidase
   Cell Rep39, 110834-110834. PubMed  Europe PubMed DOI
2021
6. Bala,S., Yellamanda,K.V., Kadari,A., Ravinuthala,V.S.U., Kattula,B., Singh,O.V., Gundla,R. and Addlagatta,A.
   Selective inhibition of Helicobacter pylori methionine aminopeptidase by azaindole hydroxamic acid derivatives: Design, synthesis, in vitro biochemical and structural studies
   Bioorg Chem115, 105185-105185. PubMed  Europe PubMed DOI  K  I
2020
7. Boucherit,H., Chikhi,A., Bensegueni,A., Merzoug,A. and Bolla,J.M.
   Identification of novel inhibitors of bacterial methionine aminopeptidase using in silico virtual screening approach and in vitro validation
   Curr Comput Aided Drug Des16, 389-401. PubMed  Europe PubMed DOI  I
8. Ekpenyong,O., Gao,X., Ma,J., Cooper,C., Nguyen,L., Olaleye,O.A., Liang,D. and Xie,H.
   Pre-clinical pharmacokinetics, tissue distribution and physicochemical studies of CLBQ14, a novel methionine aminopeptidase inhibitor for the treatment of infectious diseases
   Drug Des Devel Ther14, 1263-1277. PubMed  Europe PubMed DOI  I
9. Rodriguez,F., John,S.F., Iniguez,E., Montalvo,S., Michael,K., White,L., Liang,D., Olaleye,O.A. and Maldonado,R.A.
   In vitro and in vivo characterization of potent antileishmanial methionine aminopeptidase-1 inhibitors
   Antimicrob Agents Chemother64, e01422-19-e01422-19. PubMed  Europe PubMed DOI  I
2019
10. Bhat,S.Y., Jagruthi,P., Srinivas,A., Arifuddin,M. and Qureshi,I.A.
    Synthesis and characterization of quinoline-carbaldehyde derivatives as novel inhibitors for leishmanial methionine aminopeptidase 1
    Eur J Med Chem186, 111860-111860. PubMed  Europe PubMed DOI  I
11. Labrie,S.J., Mosterd,C., Loignon,S., Dupuis,M.E., Desjardins,P., Rousseau,G.M., Tremblay,D.M., Romero,D.A., Horvath,P., Fremaux,C. and Moineau,S.
    A mutation in the methionine aminopeptidase gene provides phage resistance in Streptococcus thermophilus
    Sci Rep9, 13816-13816. PubMed  Europe PubMed DOI  M
12. Vanunu,M., Schall,P., Reingewertz,T.H., Chakraborti,P.K., Grimm,B. and Barkan,D.
    MapB Protein is the essential methionine aminopeptidase in Mycobacterium tuberculosis
    Cells8, 393-393. PubMed  Europe PubMed DOI
2018
13. Arif,A., Mohammed,K. and Nadeem,M.S.
    Biochemical and in silico evaluation of recombinant E. coli aminopeptidase and in vitro processed human interferon alpha-2b
    Turk J Biol42, 240-249. PubMed  Europe PubMed DOI  E
14. Ekpenyong,O., Cooper,C., Ma,J., Liang,D., Olaleye,O. and Xie,H.
    A simple, sensitive and reliable LC-MS/MS method for the determination of 7-bromo-5-chloroquinolin-8-ol (CLBQ14), a potent and selective inhibitor of methionine aminopeptidases: application to pharmacokinetic studies
    J Chromatogr B Analyt Technol Biomed Life Sci1097-1098, 35-43. PubMed  Europe PubMed DOI  I
15. Helgren,T.R., Seven,E.S., Chen,C., Edwards,T.E., Staker,B.L., Abendroth,J., Myler,P.J., Horn,J.R. and Hagen,T.J.
    The identification of inhibitory compounds of Rickettsia prowazekii methionine aminopeptidase for antibacterial applications
    Bioorg Med Chem Lett28, 1376-1380. PubMed  Europe PubMed DOI  I
2017
16. Helgren,T.R., Chen,C., Wangtrakuldee,P., Edwards,T.E., Staker,B.L., Abendroth,J., Sankaran,B., Housley,N.A., Myler,P.J., Audia,J.P., Horn,J.R. and Hagen,T.J.
    Rickettsia prowazekii methionine aminopeptidase as a promising target for the development of antibacterial agents
    Bioorg Med Chem25, 813-824. PubMed  Europe PubMed DOI  S  I
2016
17. Helgren,T.R., Wangtrakuldee,P., Staker,B.L. and Hagen,T.J.
    Advances in bacterial methionine aminopeptidase inhibition
    Curr Top Med Chem16, 397-414. PubMed  Europe PubMed  S  I
18. Reddi,R., Singarapu,K.K., Pal,D. and Addlagatta,A.
    The unique functional role of the C-HS hydrogen bond in the substrate specificity and enzyme catalysis of type 1 methionine aminopeptidase
    Mol Biosyst12, 2408-2416. PubMed  Europe PubMed DOI
2015
19. Rose,J.A., Lahiri,S.D., McKinney,D.C., Albert,R., Morningstar,M.L., Shapiro,A.B., Fisher,S.L. and Fleming,P.R.
    Novel broad-spectrum inhibitors of bacterial methionine aminopeptidase
    Bioorg Med Chem Lett25, 3301-3306. PubMed  Europe PubMed DOI  I
2014
20. Altmeyer,M., Amtmann,E., Heyl,C., Marschner,A., Scheidig,A.J. and Klein,C.D.
    Beta-aminoketones as prodrugs for selective irreversible inhibitors of type-1 methionine aminopeptidases
    Bioorg Med Chem Lett24, 5310-5314. PubMed  Europe PubMed DOI  I
2013
21. Arya,T., Kishor,C., Saddanapu,V., Reddi,R. and Addlagatta,A.
    Discovery of a new genetic variant of methionine aminopeptidase from streptococci with possible post-translational modifications: biochemical and structural characterization
    PLoS ONE8, e75207-e75207. PubMed  Europe PubMed DOI  S
22. Bonissone,S., Gupta,N., Romine,M., Bradshaw,R.A. and Pevzner,P.A.
    N-terminal protein processing: a comparative proteogenomic analysis
    Mol Cell Proteomics12, 14-28. PubMed  Europe PubMed
23. Wangtrakuldee,P., Byrd,M.S., Campos,C.G., Henderson,M.W., Zhang,Z., Clare,M., Masoudi,A., Myler,P.J., Horn,J.R., Cotter,P.A. and Hagen,T.J.
    Discovery of inhibitors of Burkholderia pseudomallei methionine aminopeptidase with antibacterial activity
    ACS Med Chem Lett4, 699-703. PubMed  Europe PubMed DOI  I
2012
24. Huguet,F., Melet,A., Alves de Sousa,R., Lieutaud,A., Chevalier,J., Maigre,L., Deschamps,P., Tomas,A., Leulliot,N., Pages,J.M. and Artaud,I.
    Hydroxamic acids as potent inhibitors of Fe(II) and Mn(II) E. coli methionine aminopeptidase: biological activities and X-ray structures of oxazole hydroxamate-EcMetAP-Mn complexes
    ChemMedChem7, 1020-1030. PubMed  Europe PubMed DOI  I
25. Kishor,C., Gumpena,R., Reddi,R. and Addlagatta,A.
    Structural studies of Enterococcus faecalis methionine aminopeptidase and design of microbe specific 2,2 '-bipyridine based inhibitors
    MedChemComm3, 1406-1412. DOI  S  I
26. Kratky,M., Vinsova,J., Novotna,E., Mandikova,J., Wsol,V., Trejtnar,F., Ulmann,V., Stolarikova,J., Fernandes,S., Bhat,S. and Liu,J.O.
    Salicylanilide derivatives block Mycobacterium tuberculosis through inhibition of isocitrate lyase and methionine aminopeptidase
    Tuberculosis (Edinb)92, 434-439. PubMed  Europe PubMed DOI  I
27. Lu,J.P., Yuan,X.H. and Ye,Q.Z.
    Structural analysis of inhibition of Mycobacterium tuberculosis methionine aminopeptidase by bengamide derivatives
    Eur J Med Chem47, 479-484. PubMed  Europe PubMed DOI  S  I
28. Sule,N., Singh,R.K., Zhao,P. and Srivastava,D.K.
    Probing the metal ion selectivity in methionine aminopeptidase via changes in the luminescence properties of the enzyme bound europium ion
    J Inorg Biochem106, 84-89. PubMed  Europe PubMed DOI
29. Walker,K.W. and Bradshaw,R.A.
    Methionyl aminopeptidase type 1
    [ISSN:978-0-12-407743-0]3, 1495-1500. DOI
2011
30. Chai,S.C., Wang,W.L., Ding,D.R. and Ye,Q.Z.
    Growth inhibition of Escherichia coli and methicillin-resistant Staphylococcus aureus by targeting cellular methionine aminopeptidase
    Eur J Med Chem46, 3537-3540. PubMed  Europe PubMed DOI  I
31. Kanudia,P., Mittal,M., Kumaran,S. and Chakraborti,P.K.
    Amino-terminal extension present in the methionine aminopeptidase type 1c of Mycobacterium tuberculosis is indispensible for its activity
    BMC Biochem12, 35-35. PubMed  Europe PubMed DOI
32. Olaleye,O., Raghunand,T.R., Bhat,S., Chong,C., Gu,P., Zhou,J., Zhang,Y., Bishai,W.R. and Liu,J.O.
    Characterization of clioquinol and analogues as novel inhibitors of methionine aminopeptidases from Mycobacterium tuberculosis
    Tuberculosis (Edinb)91 Suppl 1, S61-S65. PubMed  Europe PubMed DOI  I
33. Shapiro,A.B., Gao,N., Thresher,J., Walkup,G.K. and Whiteaker,J.
    A high-throughput absorbance-based assay for methionine produced by methionine aminopeptidase using S-adenosyl-L-methionine synthetase
    J Biomol Screen16, 494-505. PubMed  Europe PubMed DOI  A
34. Wang,W.L., Chai,S.C. and Ye,Q.Z.
    Synthesis and biological evaluation of salicylate-based compounds as a novel class of methionine aminopeptidase inhibitors
    Bioorg Med Chem Lett21, 7151-7154. PubMed  Europe PubMed DOI  I
2010
35. Altmeyer,M.A., Marschner,A., Schiffmann,R. and Klein,C.D.
    Subtype-selectivity of metal-dependent methionine aminopeptidase inhibitors
    Bioorg Med Chem Lett20, 4038-4044. PubMed  Europe PubMed DOI  I
36. Lu,J.P. and Ye,Q.Z.
    Expression and characterization of Mycobacterium tuberculosis methionine aminopeptidase type 1a
    Bioorg Med Chem Lett20, 2776-2779. PubMed  Europe PubMed DOI
37. Lu,J.P., Chai,S.C. and Ye,Q.Z.
    Catalysis and inhibition of Mycobacterium tuberculosis methionine aminopeptidase
    J Med Chem53, 1329-1337. PubMed  Europe PubMed DOI  S  I
2009
38. Chai,S.C. and Ye,Q.Z.
    Analysis of the stoichiometric metal activation of methionine aminopeptidase
    BMC Biochem10, 32-32. PubMed  Europe PubMed DOI
39. Chai,S.C., Lu,J.P. and Ye,Q.Z.
    Determination of binding affinity of metal cofactor to the active site of methionine aminopeptidase based on quantitation of functional enzyme
    Anal Biochem395, 263-264. PubMed  Europe PubMed DOI
40. Chai,S.C. and Ye,Q.Z.
    Metal-mediated inhibition is a viable approach for inhibiting cellular methionine aminopeptidase
    Bioorg Med Chem Lett19, 6862-6864. PubMed  Europe PubMed DOI  I
41. Drath,M., Baier,K. and Forchhammer,K.
    An alternative methionine aminopeptidase, MAP-A, is required for nitrogen starvation and high-light acclimation in the cyanobacterium Synechocystis sp. PCC 6803
    Microbiology (Reading)155, 1427-1439. PubMed  Europe PubMed DOI
42. Mitra,S., Bennett,B. and Holz,R.C.
    Mutation of H63 and its catalytic affect on the methionine aminopeptidase from Escherichia coli
    Biochim Biophys Acta1794, 137-143. PubMed  Europe PubMed DOI
43. Mitra,S., Sheppard,G., Wang,J., Bennett,B. and Holz,R.C.
    Analyzing the binding of Co(II)-specific inhibitors to the methionyl aminopeptidases from Escherichia coli and Pyrococcus furiosus
    J Biol Inorg Chem14, 573-585. PubMed  Europe PubMed DOI  I
44. Wang,W.L., Chai,S.C. and Ye,Q.Z.
    Synthesis and structure-function analysis of Fe(II)-form-selective antibacterial inhibitors of Escherichia coli methionine aminopeptidase
    Bioorg Med Chem Lett19, 1080-1083. PubMed  Europe PubMed DOI  I
2008
45. Chai,S.C., Wang,W.L. and Ye,Q.Z.
    Fe(II) is the native cofactor for Escherichia coli methionine aminopeptidase
    J Biol Chem283, 26879-26885. PubMed  Europe PubMed DOI
46. Haldar,M.K., Scott,M.D., Sule,N., Srivastava,D.K. and Mallik,S.
    Synthesis of barbiturate-based methionine aminopeptidase-1 inhibitors
    Bioorg Med Chem Lett18, 2373-2376. PubMed  Europe PubMed DOI  I
47. Larrabee,J.A., Chyun,S.A. and Volwiler,A.S.
    Magnetic circular dichroism study of a dicobalt(II) methionine aminopeptidase/fumagillin complex and dicobalt II-II and II-III model complexes
    Inorg Chem47, 10499-10508. PubMed  Europe PubMed DOI
48. Mitra,S., Job,K.M., Meng,L., Bennett,B. and Holz,R.C.
    Analyzing the catalytic role of Asp97 in the methionine aminopeptidase from Escherichia coli
    FEBS J275, 6248-6259. PubMed  Europe PubMed DOI
49. Narayanan,S.S., Ramanujan,A., Krishna,S. and Nampoothiri,K.M.
    Purification and biochemical characterization of methionine aminopeptidase (MetAP) from Mycobacterium smegmatis mc2155
    Appl Biochem Biotechnol151, 512-521. PubMed  Europe PubMed DOI
50. Vedantham,P., Guerra,J.M., Schoenen,F., Huang,M., Gor,P.J., Georg,G.I., Wang,J.L., Neuenswander,B., Lushington,G.H., Mitscher,L.A., Ye,Q.Z. and Hanson,P.R.
    Ionic immobilization, diversification, and release: application to the generation of a library of methionine aminopeptidase inhibitors
    J Comb Chem10, 185-194. PubMed  Europe PubMed DOI  I
51. Vedantham,P., Zhang,M., Gor,P.J., Huang,M., Georg,G.I., Lushington,G.H., Mitscher,L.A., Ye,Q.Z. and Hanson,P.R.
    Studies towards the synthesis of methionine aminopeptidase inhibitors: diversification utilizing a ROMP-derived coupling reagent
    J Comb Chem10, 195-203. PubMed  Europe PubMed DOI  I
52. Wang,W.L., Chai,S.C., Huang,M., He,H.Z., Hurley,T.D. and Ye,Q.Z.
    Discovery of inhibitors of Escherichia coli methionine aminopeptidase with the Fe(II)-form selectivity and antibacterial activity
    J Med Chem51, 6110-6120. PubMed  Europe PubMed DOI  I
53. Watterson,S.J., Mitra,S., Swierczek,S.I., Bennett,B. and Holz,R.C.
    Kinetic and spectroscopic analysis of the catalytic role of H79 in the methionine aminopeptidase from Escherichia coli
    Biochemistry47, 11885-11893. PubMed  Europe PubMed DOI
2007
54. Evdokimov,A.G., Pokross,M., Walter,R.L., Mekel,M., Barnett,B.L., Amburgey,J., Seibel,W.L., Soper,S.J., Djung,J.F., Fairweather,N., Diven,C., Rastogi,V., Grinius,L., Klanke,C., Siehnel,R., Twinem,T., Andrews,R. and Curnow,A.
    Serendipitous discovery of novel bacterial methionine aminopeptidase inhibitors
    Proteins66, 538-546. PubMed  Europe PubMed DOI  S  I
55. Huang,M., Xie,S.X., Ma,Z.Q., Huang,Q.Q., Nan,F.J. and Ye,Q.Z.
    Inhibition of monometalated methionine aminopeptidase: inhibitor discovery and crystallographic analysis
    J Med Chem50, 5735-5742. PubMed  Europe PubMed DOI  S  I
56. Leopoldini,M., Russo,N. and Toscano,M.
    Which one among Zn(II), Co(II), Mn(II), and Fe(II) is the most efficient ion for the methionine aminopeptidase catalyzed reaction?
    J Am Chem Soc129, 7776-7784. PubMed  Europe PubMed DOI
57. Ma,Z.Q., Xie,S.X., Huang,Q.Q., Nan,F.J., Hurley,T.D. and Ye,Q.Z.
    Structural analysis of inhibition of E. coli methionine aminopeptidase: implication of loop adaptability in selective inhibition of bacterial enzymes
    BMC Struct Biol7, 84-84. PubMed  Europe PubMed DOI  S  I
58. Qiu,W.W., Xu,J., Li,J.Y., Li,J. and Nan,F.J.
    Activity-based protein profiling for type I methionine aminopeptidase by using photo-affinity trimodular probes
    Chembiochem8, 1351-1358. PubMed  Europe PubMed DOI
2006
59. Frottin,F., Martinez,A., Peynot,P., Mitra,S., Holz,R.C., Giglione,C. and Meinnel,T.
    The proteomics of N-terminal methionine cleavage
    Mol Cell Proteomics5, 2336-2349. PubMed  Europe PubMed DOI  P
60. Xie,S.X., Huang,W.J., Ma,Z.Q., Huang,M., Hanzlik,R.P. and Ye,Q.Z.
    Structural analysis of metalloform-selective inhibition of methionine aminopeptidase
    Acta Crystallogr D Biol Crystallogr62, 425-432. PubMed  Europe PubMed DOI  S  I
61. Ye,Q.Z., Xie,S.X., Ma,Z.Q., Huang,M. and Hanzlik,R.P.
    Structural basis of catalysis by monometalated methionine aminopeptidase
    Proc Natl Acad Sci U S A103, 9470-9475. PubMed  Europe PubMed DOI  S
2005
62. Addlagatta,A., Quillin,M.L., Omotoso,O., Liu,J.O. and Matthews,B.W.
    Identification of an SH3-binding motif in a new class of methionine aminopeptidases from Mycobacterium tuberculosis suggests a mode of interaction with the ribosome
    Biochemistry44, 7166-7174. PubMed  Europe PubMed DOI  S
2004
63. Bradshaw,R.A., Yi,E. and Walker,K.W.
    Methionyl aminopeptidase type I
    [ISSN:0-12-079610-4]2, 911-917.  V
64. Giglione,C., Boularot,A. and Meinnel,T.
    Protein N-terminal methionine excision
    Cell Mol Life Sci61, 1455-1474. PubMed  Europe PubMed DOI
65. [YEAR:5-1-2004]Hu,X., Zhu,J., Srivathsan,S. and Pei,D.
    Peptidyl hydroxamic acids as methionine aminopeptidase inhibitors
    Bioorg Med Chem Lett14, 77-79. PubMed  Europe PubMed DOI  I
66. [YEAR:6-10-2004]Larrabee,J.A., Leung,C.H., Moore,R.L., Thamrong-nawasawat,T. and Wessler,B.S.
    Magnetic circular dichroism and cobalt(II) binding equilibrium studies of Escherichia coli methionyl aminopeptidase
    J Am Chem Soc126, 12316-12324. PubMed  Europe PubMed DOI
67. [YEAR:14-5-2004]Li,J.Y., Cui,Y.M., Chen,L.L., Gu,M., Li,J., Nan,F.J. and Ye,Q.Z.
    Mutations at the S1 sites of methionine aminopeptidases from Escherichia coli and Homo sapiens reveal the residues critical for substrate specificity
    J Biol Chem279, 21128-21134. PubMed  Europe PubMed DOI  P
68. Liao,Y.D., Jeng,J.C., Wang,C.F., Wang,S.C. and Chang,S.T.
    Removal of N-terminal methionine from recombinant proteins by engineered E. coli methionine aminopeptidase
    Protein Sci13, 1802-1810. PubMed  Europe PubMed DOI
69. [YEAR:15-6-2004]Liu,L.F., Hsieh,C.H., Liu,P.F., Tsai,S.P. and Tam,M.F.
    Escherichia coli methionine aminopeptidase with Tyr168 to alanine substitution can improve the N-terminal processing of recombinant proteins with valine at the penultimate position
    Anal Biochem329, 345-347. PubMed  Europe PubMed DOI
70. [YEAR:1-8-2004]Spraggon,G., Schwarzenbacher,R., Kreusch,A., McMullan,D., Brinen,L.S., Canaves,J.M., Dai,X., Deacon,A.M., Elsliger,M.A., Eshagi,S., Floyd,R., Godzik,A., Grittini,C., Grzechnik,S.K., Jaroszewski,L., Karlak,C., Klock,H.E., Koesema,E., Kovarik,J.S., Kuhn,P., McPhillips,T.M., Miller,M.D., Morse,A., Moy,K., Ouyang,J., Page,R., Quijano,K., Rezezadeh,F., Robb,A., Sims,E., Stevens,R.C., van den Bedem,H., Velasquez,J., Vincent,J., von Delft,F., Wang,X., West,B., Wolf,G., Xu,Q., Hodgson,K.O., Wooley,J., Lesley,S.A. and Wilson,I.A.
    Crystal structure of a methionine aminopeptidase (TM1478) from Thermotoga maritima at 1.9 A resolution
    Proteins56, 396-400. PubMed  Europe PubMed DOI  S
71. [YEAR:3-11-2004]Ye,Q.Z., Xie,S.X., Huang,M., Huang,W.J., Lu,J.P. and Ma,Z.Q.
    Metalloform-selective inhibitors of Escherichia coli methionine aminopeptidase and X-ray structure of a Mn(II)-form enzyme complexed with an inhibitor
    J Am Chem Soc126, 13940-13941. PubMed  Europe PubMed DOI  S  I
2003
72. Atanassova,A., Sugita,M., Sugiura,M., Pajpanova,T. and Ivanov,I.
    Molecular cloning, expression and characterization of three distinctive genes encoding methionine aminopeptidases in cyanobacterium Synechocystis sp. strain PCC6803
    Arch Microbiol180, 185-193. PubMed  Europe PubMed DOI
73. Boufous,e.H. and Vadeboncoeur,C.
    Purification and characterization of the Streptococcus salivarius methionine aminopeptidase (MetAP)
    Biochimie85, 993-997. PubMed  Europe PubMed DOI
74. [YEAR:27-5-2003]Copik,A.J., Swierczek,S.I., Lowther,W.T., D'souza,V.M., Matthews,B.W. and Holz,R.C.
    Kinetic and spectroscopic characterization of the H178A methionyl aminopeptidase from Escherichia coli
    Biochemistry42, 6283-6292. PubMed  Europe PubMed DOI
75. [YEAR:28-11-2003]Klein,C.D., Schiffmann,R., Folkers,G., Piana,S. and Rothlisberger,U.
    Protonation states of methionine aminopeptidase and their relevance for inhibitor binding and catalytic activity
    J Biol Chem278, 47862-47867. PubMed  Europe PubMed DOI  I
76. [YEAR:18-7-2003]Li,J.Y., Chen,L.L., Cui,Y.M., Luo,Q.L., Li,J., Nan,F.J. and Ye,Q.Z.
    Specificity for inhibitors of metal-substituted methionine aminopeptidase
    Biochem Biophys Res Commun307, 172-179. PubMed  Europe PubMed DOI  I
77. [YEAR:19-6-2003]Luo,Q.L., Li,J.Y., Liu,Z.Y., Chen,L.L., Li,J., Qian,Z., Shen,Q., Li,Y., Lushington,G.H., Ye,Q.Z. and Nan,F.J.
    Discovery and structural modification of inhibitors of methionine aminopeptidases from Escherichia coli and Saccharomyces cerevisiae
    J Med Chem46, 2631-2640. PubMed  Europe PubMed DOI  I
2002
78. [YEAR:6-11-2002]Bennett,B., Antholine,W.E., D'souza,V.M., Chen,G., Ustinyuk,L. and Holz,R.C.
    Structurally distinct active sites in the copper(II)-substituted aminopeptidases from Aeromonas proteolytica and Escherichia coli
    J Am Chem Soc124, 13025-13034. PubMed  Europe PubMed DOI
79. [YEAR:29-10-2002]D'souza,V.M., Swierczek,S.I., Cosper,N.J., Meng,L., Ruebush,S., Copik,A.J., Scott,R.A. and Holz,R.C.
    Kinetic and structural characterization of manganese(II)-loaded methionyl aminopeptidases
    Biochemistry41, 13096-13105. PubMed  Europe PubMed DOI
2001
80. [YEAR:6-11-2001]Cosper,N.J., D'souza,V.M., Scott,R.A. and Holz,R.C.
    Structural evidence that the methionyl aminopeptidase from Escherichia coli is a mononuclear metalloprotease
    Biochemistry40, 13302-13309. PubMed  Europe PubMed DOI  I
2000
81. [YEAR:4-4-2000]D'souza,V.M., Bennett,B., Copik,A.J. and Holz,R.C.
    Divalent metal binding properties of the methionyl aminopeptidase from Escherichia coli
    Biochemistry39, 3817-3826. PubMed  Europe PubMed DOI
82. Datta,B.
    MAPs and POEP of the roads from prokaryotic to eukaryotic kingdoms
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83. [YEAR:7-3-2000]Lowther,W.T. and Matthews,B.W.
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