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1 Zellner, G., Stackebrandt, E., Messner, P., Tindall, B.J., Conway de Macario, E., Kneifel, H., Sleytr, U.B. and Winter, J., 1989. Methanocorpusculaceae fam. nov., represented by Methanocorpusculum parvum, Methanocorpusculum sinense spec. nov. and Methanocorpusculum bavaricum spec. nov. Archives of microbiology, 151(5), pp.381-390. 2742452
2 ZELLNER, G., MESSNER, P., KNEIFEL, H., TINDALL, B.J., WINTER, J. and STACKEBRANDT, E., 1989. Methanolacinia gen. nov., incorporating Methanomicrobium paynteri as Methanolacinia paynteri comb. nov. The Journal of General and Applied Microbiology, 35(3), pp.185-202.
3 Logan, S.M., Hui, J.P., Vinogradov, E., Aubry, A.J., Melanson, J.E., Kelly, J.F., Nothaft, H. and Soo, E.C., 2009. Identification of novel carbohydrate modifications on Campylobacter jejuni 11168 flagellin using metabolomics?based approaches. The FEBS Journal, 276(4), pp.1014-1023. 19154343
4 McNally, D.J., Aubry, A.J., Hui, J.P., Khieu, N.H., Whitfield, D., Ewing, C.P., Guerry, P., Brisson, J.R., Logan, S.M. and Soo, E.C., 2007. Targeted metabolomics analysis of Campylobacter coli VC167 reveals legionaminic acid derivatives as novel flagellar glycans. Journal of Biological Chemistry, 282(19), pp.14463-14475. 17371878
5 Goon, S., Kelly, J.F., Logan, S.M., Ewing, C.P. and Guerry, P., 2003. Pseudaminic acid, the major modification on Campylobacter flagellin, is synthesized via the Cj1293 gene. Molecular microbiology, 50(2), pp.659-671. 14617187
6 Logan, S.M., Kelly, J.F., Thibault, P., Ewing, C.P. and Guerry, P., 2002. Structural heterogeneity of carbohydrate modifications affects serospecificity of Campylobacter flagellins. Molecular microbiology, 46(2), pp.587-597. 12406231
7 Thibault, P., Logan, S.M., Kelly, J.F., Brisson, J.R., Ewing, C.P. and Guerry, P., 2001. Identification of the carbohydrate moieties and glycosylation motifs in Campylobacter jejuni flagellin. Journal of Biological Chemistry, 276(37), pp.34862-34870. 11461915
8 Doig, P., Kinsella, N., Guerry, P. and Trust, T.J., 1996. Characterization of a post?translational modification of Campylobacter flagellin: identification of a sero?specific glycosyl moiety. Molecular microbiology, 19(2), pp.379-387. 8825782
9 Logan, S.M., Trust, T.J. and Guerry, P., 1989. Evidence for posttranslational modification and gene duplication of Campylobacter flagellin. Journal of bacteriology, 171(6), pp.3031-3038. 2722741
10 Guerry, P., Doig, P., Alm, R.A., Burr, D.H., Kinsella, N. and Trust, T.J., 1996. Identification and characterization of genes required for post?translational modification of Campylobacter coli VC167 flagellin. Molecular microbiology, 19(2), pp.369-378. 8825781
11 Scherman, H., Kaur, D., Pham, H., S?kovierova?, H., Jackson, M. and Brennan, P.J., 2009. Identification of a polyprenylphosphomannosyl synthase involved in the synthesis of mycobacterial mannosides. Journal of bacteriology, 191(21), pp.6769-6772. 19717608
12 Lara, M., Servín-González, L., Singh, M., Moreno, C., Cohen, I., Nimtz, M. and Espitia, C., 2004. Expression, secretion, and glycosylation of the 45-and 47-kDa glycoprotein of Mycobacterium tuberculosis in Streptomyces lividans. Applied and Environmental Microbiology, 70(2), pp.679-685. 14766542
13 Romain, F., Horn, C., Pescher, P., Namane, A., Riviere, M., Puzo, G., Barzu, O. and Marchal, G., 1999. Deglycosylation of the 45/47-kilodalton antigen complex of Mycobacterium tuberculosis decreases its capacity to elicit in vivo or in vitro cellular immune responses. Infection and immunity, 67(11), pp.5567-5572. 10531201
14 Horn, C., Namane, A., Pescher, P., Riviere, M., Romain, F., Puzo, G., Bârzu, O. and Marchal, G., 1999. Decreased capacity of recombinant 45/47-kDa molecules (Apa) of Mycobacterium tuberculosis to stimulate T lymphocyte responses related to changes in their mannosylation pattern. Journal of Biological Chemistry, 274(45), pp.32023-32030. 10542234
15 Dobos, K.M., Khoo, K.H., Swiderek, K.M., Brennan, P.J. and Belisle, J.T., 1996. Definition of the full extent of glycosylation of the 45-kilodalton glycoprotein of Mycobacterium tuberculosis. Journal of bacteriology, 178(9), pp.2498-2506. 8626314
16 Espitia, C., Espinosa, R., Saavedra, R., Mancilla, R., Romain, F., Laqueyrerie, A. and Moreno, C., 1995. Antigenic and structural similarities between Mycobacterium tuberculosis 50-to 55-kilodalton and Mycobacterium bovis BCG 45-to 47-kilodalton antigens. Infection and immunity, 63(2), pp.580-584. 7822025
17 Mehaffy, C., Belisle, J.T. and Dobos, K.M., 2019. Mycobacteria and their sweet proteins: An overview of protein glycosylation and lipoglycosylation in M. tuberculosis. Tuberculosis, 115, pp.1-13. 2478323
18 Nandakumar, S., Kannanganat, S., Dobos, K.M., Lucas, M., Spencer, J.S., Fang, S., McDonald, M.A., Pohl, J., Birkness, K., Chamcha, V. and Ramirez, M.V., 2013. O-mannosylation of the Mycobacterium tuberculosis adhesin Apa is crucial for T cell antigenicity during infection but is expendable for protection. PLoS pathogens, 9(10), p.e1003705. 24130497
19 Palmieri, G., Balestrieri, M., Peter-Katalinic?, J., Pohlentz, G., Rossi, M., Fiume, I. and Pocsfalvi, G., 2013. Surface-exposed glycoproteins of hyperthermophilic Sulfolobus solfataricus P2 show a common N-glycosylation profile. Journal of proteome research, 12(6), pp.2779-2790. 23586857
20 Brahamsha, B. and Greenberg, E.P., 1988. Biochemical and cytological analysis of the complex periplasmic flagella from Spirochaeta aurantia. Journal of bacteriology, 170(9), pp.4023-4032. 3410822
21 Grogan, D.W., 1989. Phenotypic characterization of the archaebacterial genus Sulfolobus: comparison of five wild-type strains. Journal of Bacteriology, 171(12), pp.6710-6719. 2512283
22 Lupas, A., Engelhardt, H., Peters, J., Santarius, U., Volker, S. and Baumeister, W., 1994. Domain structure of the Acetogenium kivui surface layer revealed by electron crystallography and sequence analysis. Journal of bacteriology, 176(5), pp.1224-1233. 8113161
23 Bayer, E.A., Shoham, Y. and Lamed, R., 2000. The cellulosome—an exocellular organelle for degrading plant cell wall polysaccharides. Glycomicrobiology. Kluwer Academic/Plenum Publishers, New York, NY, pp.387-439.
24 Rosales?Borjas, D.M., Zambrano?Villa, S., Elinos, M., Kasem, H., Osuna, A., Mancilla, R. and Ortiz?Ortiz, L., 1998. Rapid screening test for tuberculosis using a 38?kDa antigen from Mycobacterium tuberculosis. Journal of clinical laboratory analysis, 12(2), pp.126-129. 9524298
25 Lin, X.L. and Tang, J., 1990. Purification, characterization, and gene cloning of thermopsin, a thermostable acid protease from Sulfolobus acidocaldarius. Journal of Biological Chemistry, 265(3), pp.1490-1495. 2104843
26 Mihoc, A. and Kluepfel, D., 1990. Purification and characterization of a ?-glucosidase from Streptomyces lividans 66. Canadian journal of microbiology, 36(1), pp.53-56.
27 Zellner, G., Sleytr, U.B., Messner, P., Kneifel, H. and Winter, J., 1990. Methanogenium liminatans spec. nov., a new coccoid, mesophilic methanogen able to oxidize secondary alcohols. Archives of microbiology, 153(3), pp.287-293.
28 PETERS, J., RUDOLF, S., OscHKiNAT, H., MENGELE, R., Sumper, M., KELLERMANN, J., LOTTSPEICH, F. and BAUMEISTER, W., 1992. Evidence for tyrosine-linked glycosaminoglycan in a bacterial surface protein. 1596358
29 Peters, J., Peters, M., Lottspeich, F. and Baumeister, W., 1989. S-layer protein gene of Acetogenium kivui: cloning and expression in Escherichia coli and determination of the nucleotide sequence. Journal of bacteriology, 171(11), pp.6307-6315. 2681162
30 Swanson, A.F. and Kuo, C.C., 1996. The 18-kDa lectin-binding protein of Chlamydia trachomatis is different from the 18-kDa histone-like protein. FEMS microbiology letters, 137(2-3), pp.189-192. 8998984
31 Swanson, A.F. and Kuo, C.C., 1991. The characterization of lectin-binding proteins of Chlamydia trachomatis as glycoproteins. Microbial pathogenesis, 10(6), pp.465-473. 1724547
32 Swanson, A.F. and Kuo, C.C., 1990. Identification of lectin-binding proteins in Chlamydia species. Infection and immunity, 58(2), pp.502-507. 2298489
33 Kluepfel, D., Vats-Mehta, S.U.S.H.M.A., Aumont, F., Shareck, F. and Morosoli, R., 1990. Purification and characterization of a new xylanase (xylanase B) produced by Streptomyces lividans 66. Biochemical Journal, 267(1), pp.45-50. 2327987
34 Messner, P., Bock, K., Christian, R., Schulz, G. and Sleytr, U.B., 1990. Characterization of the surface layer glycoprotein of Clostridium symbiosum HB25. Journal of bacteriology, 172(5), pp.2576-2583. 2332405
35 Southam, G., Kalmokoff, M.L., Jarrell, K.F., Koval, S.F. and Beveridge, T.J., 1990. Isolation, characterization, and cellular insertion of the flagella from two strains of the archaebacterium Methanospirillum hungatei. Journal of bacteriology, 172(6), pp.3221-3228. 2345143
36 Schäffer, C., Dietrich, K., Unger, B., Scheberl, A., Rainey, F.A., Kählig, H. and Messner, P., 2000. A novel type of carbohydrate–protein linkage region in the tyrosine?bound S?layer glycan of Thermoanaerobacterium thermosaccharolyticum D120?70. European Journal of Biochemistry, 267(17), pp.5482-5492. 10951207
37 ALTMAN, E., BRISSON, J.R., MESSNER, P. and SLEYTR, U.B., 1990. Chemical characterization of the regularly arranged surface layer glycoprotein of Clostridium thermosaccharolyticum D120?70. European journal of biochemistry, 188(1), pp.73-82. 2318204
38 Michell, S.L., Whelan, A.O., Wheeler, P.R., Panico, M., Easton, R.L., Etienne, A.T., Haslam, S.M., Dell, A., Morris, H.R., Reason, A.J. and Herrmann, J.L., 2003. The MPB83 Antigen from Mycobacterium bovis ContainsO-Linked Mannose and (1? 3)-Mannobiose Moieties. Journal of Biological Chemistry, 278(18), pp.16423-16432. 12517764
39 Fifis, T.H.E.O.D.O.R.A., Costopoulos, C.H.R.Y.S., Radford, A.J., Bacic, A.N.T.O.N.Y. and Wood, P.R., 1991. Purification and characterization of major antigens from a Mycobacterium bovis culture filtrate. Infection and immunity, 59(3), pp.800-807. 1900061
40 Kuo, C.C., Takahashi, N., Swanson, A.F., Ozeki, Y. and Hakomori, S.I., 1996. An N-linked high-mannose type oligosaccharide, expressed at the major outer membrane protein of Chlamydia trachomatis, mediates attachment and infectivity of the microorganism to HeLa cells. The Journal of clinical investigation, 98(12), pp.2813-2818. 8981929
41 Swanson, A.F. and Kuo, C.C., 1994. Binding of the glycan of the major outer membrane protein of Chlamydia trachomatis to HeLa cells. Infection and immunity, 62(1), pp.24-28. 8262634
42 Swanson, A.F. and Kuo, C.C., 1991. Evidence that the major outer membrane protein of Chlamydia trachomatis is glycosylated. Infection and immunity, 59(6), pp.2120-2125. 1645328
43 Bashkatova, N.A., Severina, L.O., Golovacheva, R.S. and Mityushina, L.L., 1991. Surface layers of extremely thermoacidophilic archaebacteria of the genus Sulfolobus. Mikrobiologiya, 60, p.90.
44 Cheong, G.W., Cejka, Z., Peters, J., Stetter, K.O. and Baumeister, W., 1991. The surface protein layer of Methanoplanus limicola: three-dimensional structure and chemical characterization. Systematic and applied microbiology, 14(3), pp.209-217.
45 Pley, U., Schipka, J., Gambacorta, A., Jannasch, H.W., Fricke, H., Rachel, R. and Stetter, K.O., 1991. Pyrodictium abyssi sp. nov. represents a novel heterotrophic marine archaeal hyperthermophile growing at 110 C. Systematic and applied microbiology, 14(3), pp.245-253.
46 Kozloff, L.M., Turner, M.A. and Arellano, F., 1991. Formation of bacterial membrane ice-nucleating lipoglycoprotein complexes. Journal of bacteriology, 173(20), pp.6528-6536. 1917877
47 Turner, M.A., Arellano, F. and Kozloff, L.M., 1991. Components of ice nucleation structures of bacteria. Journal of Bacteriology, 173(20), pp.6515-6527. 1917876
48 McManus, J.D., Brune, D.C., Han, J., Sanders-Loehr, J., Meyer, T.E., Cusanovich, M.A., Tollin, G. and Blankenship, R.E., 1992. Isolation, characterization, and amino acid sequences of auracyanins, blue copper proteins from the green photosynthetic bacterium Chloroflexus aurantiacus. Journal of Biological Chemistry, 267(10), pp.6531-6540. 1313011
49 Gandolfi-Donadío, L., Gola, G., de Lederkremer, R.M. and Gallo-Rodriguez, C., 2006. Synthesis of ?-d-Galf-(1? 2)-d-galactitol and ?-d-Galf-(1? 2)[?-d-Galf-(1? 3)]-d-galactitol, oligosaccharide derivatives from Bacteroides cellulosolvens glycoproteins. Carbohydrate research, 341(15), pp.2487-2497. 16949061
50 Gerwig, G.J., Kamerling, J.P., Vliegenthart, J.F., Morag, E., Lamed, R. and Bayer, E.A., 1993. The nature of the carbohydrate-peptide linkage region in glycoproteins from the cellulosomes of Clostridium thermocellum and Bacteroides cellulosolvens. Journal of biological chemistry, 268(36), pp.26956-26960. 8262930
51 GERWIG, G.J., KAMERLING, J.P., VLIEGENTHART, J.F., MORAG, E., LAMED, R. and BAYER, E.A., 1992. Novel oligosaccharide constituents of the cellulase complex of Bacteroides cellulosolvens. European journal of biochemistry, 205(2), pp.799-808. 1572372
52 Paul, J. and Varma, A.K., 1992. Glycoprotein components of cellulase and xylanase enzymes of aBacillus sp. Biotechnology letters, 14(3), pp.207-212. 1023360
53 Christian, R.U.D.O.L.F., Schulz, G., Schuster-Kolbe, J., Allmaier, G., Schmid, E.R., Sleytr, U.B. and Messner, P., 1993. Complete structure of the tyrosine-linked saccharide moiety from the surface layer glycoprotein of Clostridium thermohydrosulfuricum S102-70. Journal of bacteriology, 175(5), pp.1250-1256. 8444787
54 Karnauchow, T.M., Koval, S.F. and Jarrell, K.F., 1992. Isolation and characterization of three thermophilic anaerobes from a St. Lucia hot spring. Systematic and applied microbiology, 15(2), pp.296-310.
55 Yao, R.O.N.G., Macario, A.J. and de Macario, E.C., 1992. Immunochemical differences among Methanosarcina mazei S-6 morphologic forms. Journal of bacteriology, 174(14), pp.4683-4688. 1624456
56 Altman, E., Brisson, J.R., Gagné, S.M., Kolbe, J., Messner, P. and Sleytr, U.B., 1992. Structure of the glycan chain from the surface layer glycoprotein of Clostridium thermophydrosulfuricum L77-66. Biochimica et Biophysica Acta (BBA)-General Subjects, 1117(1), pp.71-77. 1320936
57 MEIER, B., BRUNOTTE, C.M., FRANZ, B., WARLICH, B., PETERMANN, M., ZIESENIS, A., SCHUBERTH, H.J., HABERMEHL, G.G., PETZOLDT, K. and LEIBOLD, W., 1992. Isolation of a high-molecular mass glycoprotein from culture supernatant of an arthritogenic strain of the bacteria Erysipelothrix rhusiopathiae reacting with “inductive” monoclonal antibodies derived from rats with erysipelas polyarthritis. 1384550
58 Van Rijssel, M., Gerwig, G.J. and Hansen, T.A., 1993. Isolation and characterization of an extracellular glycosylated protein complex from Clostridium thermosaccharolyticum with pectin methylesterase and polygalacturonate hydrolase activity. Applied and environmental microbiology, 59(3), pp.828-836. 202196
59 Messner, P., Christian, R., Kolbe, J., Schulz, G. and Sleytr, U.B., 1992. Analysis of a novel linkage unit of O-linked carbohydrates from the crystalline surface layer glycoprotein of Clostridium thermohydrosulfuricum S102-70. Journal of bacteriology, 174(7), pp.2236-2240. 1551844
60 Gongadze, G.M., Kostyukova, A.S., Miroshnichenko, M.L. and Bonch-Osmolovskaya, E.A., 1993. Regular proteinaceous layers ofThermococcus stetteri cell envelope. Current Microbiology, 27(1), pp.5-9.
61 Peyret, J.L., Bayan, N., Joliff, G., Gulik?Krzywicki, T., Mathieu, L., Shechter, E. and Leblon, G., 1993. Characterization of the cspB gene encoding PS2, an ordered surface?layer protein in Corynebacterium glutamicum. Molecular microbiology, 9(1), pp.97-109. 8412676
62 Bayley, D.P., Kalmokoff, M.L. and Jarrell, K.F., 1993. Effect of bacitracin on flagellar assembly and presumed glycosylation of the flagellins of Methanococcus deltae. Archives of Microbiology, 160(3), pp.179-185.
63 Power, P.M., Seib, K.L. and Jennings, M.P., 2006. Pilin glycosylation in Neisseria meningitidis occurs by a similar pathway to wzy-dependent O-antigen biosynthesis in Escherichia coli. Biochemical and biophysical research communications, 347(4), pp.904-908. 16870136
64 Power, P.M., Roddam, L.F., Dieckelmann, M., Srikhanta, Y.N., Tan, Y.C., Berrington, A.W. and Jennings, M.P., 2000. Genetic characterization of pilin glycosylation in Neisseria meningitidisThe GenBank accession number for the sequence determined in this work is AF014804. Microbiology, 146(4), pp.967-979. 10784055
65 Marceau, M., Forest, K., Béretti, J.L., Tainer, J. and Nassif, X., 1998. Consequences of the loss of O?linked glycosylation of meningococcal type IV pilin on piliation and pilus?mediated adhesion. Molecular microbiology, 27(4), pp.705-715. 9515697
66 Virji, M., Stimson, E., Makepeace, K., Dell, A., Morris, H.R., Payne, G., Saunders, J.R. and Moxon, E.R., 1996. Posttranslational modifications of meningococcal pili. Identification of a common trisaccharide substitution on variant pilins of strain C311. Annals of the New York Academy of Sciences, 797, pp.53-64. 8993351
67 Stimson, E., Virji, M., Makepeace, K., Dell, A., Morris, H.R., Payne, G., Saunders, J.R., Jennings, M.P., Barker, S., Panico, M. and Blench, I., 1995. Meningococcal pilin: a glycoprotein substituted with digalactosyl 2, 4?diacetamido?2, 4, 6?trideoxyhexose. Molecular microbiology, 17(6), pp.1201-1214. 8594338
68 Virji, M., Saunders, J.R., Sims, G., Makepeace, K., Maskell, D. and Ferguson, D.J., 1993. Pilus?facilitated adherence of Neisseria meningitidis to human epithelial and endothelial cells: modulation of adherence phenotype occurs concurrently with changes in primary amino acid sequence and the glycosylation status of pilin. Molecular microbiology, 10(5), pp.1013-1028. 7934852
69 Li, Z., Dumas, F., Dubreuil, D. and Jacques, M., 1993. A species-specific periplasmic flagellar protein of Serpulina (Treponema) hyodysenteriae. Journal of bacteriology, 175(24), pp.8000-8007. 8253687
70 Hahn, M., Keitel, T. and Heinemann, U., 1995. Crystal and Molecular Structure at 0.16?nm Resolution of the Hybrid Bacillus Endo?1, 3?1, 4???D?Glucan 4?Glucanohydrolase H (A16?M). European journal of biochemistry, 232(3), pp.849-858. 7588726
71 Serganova, I., Ksenzenko, V., Serganov, A., Meshcheryakova, I., Pyatibratov, M., Vakhrusheva, O., Metlina, A. and Fedorov, O., 2002. Sequencing of flagellin genes from Natrialba magadii provides new insight into evolutionary aspects of archaeal flagellins. Journal of Bacteriology, 184(1), pp.318-322. 11741874
72 Fedorov, O.V., Pyatibratov, M.G., Kostyukova, A.S., Osina, N.K. and Tarasov, V.Y., 1994. Protofilament as a structural element of flagella of haloalkalophilic archaebacteria. Canadian journal of microbiology, 40(1), pp.45-53.
73 Bayley, D.P. and Koval, S.F., 1994. Membrane association and isolation of the S-layer protein of Methanoculleus marisnigri. Canadian journal of microbiology, 40(3), pp.237-241.
74 Bock, K., Schuster-Kolbe, J., Altman, E., Allmaier, G., Stahl, B., Christian, R., Sleytr, U.B. and Messner, P., 1994. Primary structure of the O-glycosidically linked glycan chain of the crystalline surface layer glycoprotein of Thermoanaerobacter thermohydrosulfuricus L111-69. Galactosyl tyrosine as a novel linkage unit. Journal of Biological Chemistry, 269(10), pp.7137-7144. 8125923
75 Shaya, D., Tocilj, A., Li, Y., Myette, J., Venkataraman, G., Sasisekharan, R. and Cygler, M., 2006. Crystal structure of heparinase II from Pedobacter heparinus and its complex with a disaccharide product. Journal of Biological Chemistry, 281(22), pp.15525-15535. 16565082
76 Horzempa, J., Dean, C.R., Goldberg, J.B. and Castric, P., 2006. Pseudomonas aeruginosa 1244 pilin glycosylation: glycan substrate recognition. Journal of bacteriology, 188(12), pp.4244-4252. 16740931
77 Özbek, S., Müller, J.F., Figgemeier, E. and Stetefeld, J., 2005. Favourable mediation of crystal contacts by cocoamidopropylbetaine (CAPB). Acta Crystallographica Section D: Biological Crystallography, 61(4), pp.477-480. 15805603
78 Peters, J., Nitsch, M., Kühlmorgen, B., Golbik, R., Lupas, A., Kellermann, J., Engelhardt, H., Pfander, J.P., Müller, S., Goldie, K. and Engel, A., 1995. Tetrabrachion: a filamentous archaebacterial surface protein assembly of unusual structure and extreme stability. Journal of molecular biology, 245(4), pp.385-401. 7837271
79 Garcia-Patrone, M. and Tandecarz, J.S., 1995. A glycoprotein multimer fromBacillus thuringiensis sporangia: Dissociation into subunits and sugar composition. Molecular and cellular biochemistry, 145(1), pp.29-37. 7659076
80 Moens, S., Michiels, K. and Vanderleyden, J., 1995. Glycosylation of the flagellin of the polar flagellum of Azospirillum brasilense, a Gram-negative nitrogen-fixing bacterium. Microbiology, 141(10), pp.2651-2657.
81 Plummer, T.H., Tarentino, A.L. and Hauer, C.R., 1995. Novel, Specific O-Glycosylation of Secreted Flavobacterium meningosepticum Proteins.: Asp-Ser? AND Asp-Thr?-Thr CONSENSUS SITES?. Journal of Biological Chemistry, 270(22), pp.13192-13196. 7768916
82 Godavarti, R. and Sasisekharan, R., 1996. A Comparative Analysis of the Primary Sequences and Characteristics of Heparinases I, II, and III fromFlavobacterium heparinum. Biochemical and biophysical research communications, 229(3), pp.770-777. 8954971
83 Huang, L., Van Halbeek, H., Eggimann, B. and Zimmermann, J., 1995. Structural characterization of the novel O-linked carbohydrate structure of Flavobacterium heparinum heparinase I. Glycobiology, 5, p.712.
84 Sasisekharan, R., Bulmer, M., Moremen, K.W., Cooney, C.L. and Langer, R., 1993. Cloning and expression of heparinase I gene from Flavobacterium heparinum. Proceedings of the National Academy of Sciences, 90(8), pp.3660-3664. 8475114
85 Smedley III, J.G., Jewell, E., Roguskie, J., Horzempa, J., Syboldt, A., Stolz, D.B. and Castric, P., 2005. Influence of pilin glycosylation on Pseudomonas aeruginosa 1244 pilus function. Infection and immunity, 73(12), pp.7922-7931. 16299283
86 Comer, J.E., Marshall, M.A., Blanch, V.J., Deal, C.D. and Castric, P. (2002) Identification of the Pseudomonas aeruginosa 1244 pilin glycosylation site. Infect Immun, 70, 2837-2845. [PubMed: 12010970] 12010970
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89 Stetefeld, J., Jenny, M., Schulthess, T., Landwehr, R., Engel, J. and Kammerer, R.A., 2000. Crystal structure of a naturally occurring parallel right-handed coiled coil tetramer. Nature structural biology, 7(9), pp.772-776. 10966648
90 Peters, J., Baumeister, W. and Lupas, A., 1996. Hyperthermostable Surface Layer Protein Tetrabrachion from the ArchaebacteriumStaphylothermus marinus: Evidence for the Presence of a Right-handed Coiled Coil Derived from the Primary Structure. Journal of molecular biology, 257(5), pp.1031-1041. 8632466
91 Altman, E., Schäffer, C., Brisson, J.R. and Messner, P., 1996. Isolation and characterization of an amino sugar-rich glycopeptide from the surface layer glycoprotein of Thermoanaerobacterium thermosaccharolyticum E207-71. Carbohydrate research, 295, pp.245-253. 9002194
92 Altman, E., Schäffer, C., Brisson, J.R. and Messner, P., 1995. Characterization of the glycan structure of a major glycopeptide from the surface layer glycoprotein of Clostridium thermosaccharolyticum E207?71. European Journal of Biochemistry, 229(1), pp.308-315. 7744045
93 Plummer, T.H., Tarentino, A.L. and Hauer, C.R., 1995. Novel, Specific O-Glycosylation of Secreted Flavobacterium meningosepticum Proteins.: Asp-Ser? AND Asp-Thr?-Thr CONSENSUS SITES?. Journal of Biological Chemistry, 270(22), pp.13192-13196. 7768917
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535 Larkin, A., Chang, M.M., Whitworth, G.E. and Imperiali, B., 2013. Biochemical evidence for an alternate pathway in N-linked glycoprotein biosynthesis. Nature chemical biology, 9(6), pp.367-373. 23624439
536 Chaban, B., Logan, S.M., Kelly, J.F. and Jarrell, K.F., 2009. AglC and AglK are involved in biosynthesis and attachment of diacetylated glucuronic acid to the N-glycan in Methanococcus voltae. Journal of Bacteriology, 191(1), pp.187-195. 18978056
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539 Warren, M.J., Roddam, L.F., Power, P.M., Terry, T.D. and Jennings, M.P., 2004. Analysis of the role of pglI in pilin glycosylation of Neisseria meningitidis. FEMS Immunology & Medical Microbiology, 41(1), pp.43-50. 15094166
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543 Aas, F.E., Vik, Å., Vedde, J., Koomey, M. and Egge?Jacobsen, W., 2007. Neisseria gonorrhoeae O?linked pilin glycosylation: functional analyses define both the biosynthetic pathway and glycan structure. Molecular microbiology, 65(3), pp.607-624. 17608667
544 Chamot-Rooke, J., Rousseau, B., Lanternier, F., Mikaty, G., Mairey, E., Malosse, C., Bouchoux, G., Pelicic, V., Camoin, L., Nassif, X. and Duménil, G., 2007. Alternative Neisseria spp. type IV pilin glycosylation with a glyceramido acetamido trideoxyhexose residue. Proceedings of the National Academy of Sciences, 104(37), pp.14783-14788. 17804791
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550 Wehmeier, S., Varghese, A.S., Gurcha, S.S., Tissot, B., Panico, M., Hitchen, P., Morris, H.R., Besra, G.S., Dell, A. and Smith, M.C.M., 2009. Glycosylation of the phosphate binding protein, PstS, in Streptomyces coelicolor by a pathway that resembles protein O?mannosylation in eukaryotes. Molecular microbiology, 71(2), pp.421-433. 19017269
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554 Zhang, H., Zhu, F., Yang, T., Ding, L., Zhou, M., Li, J., Haslam, S.M., Dell, A., Erlandsen, H. and Wu, H., 2014. The highly conserved domain of unknown function 1792 has a distinct glycosyltransferase fold. Nature communications, 5(1), pp.1-12. 25023666
555 Zhang, H., Zhou, M., Yang, T., Haslam, S.M., Dell, A. and Wu, H., 2016. New helical binding domain mediates a glycosyltransferase activity of a bifunctional protein. Journal of Biological Chemistry, 291(42), pp.22106-22117. 27539847
556 Schwarz, F., Fan, Y.Y., Schubert, M. and Aebi, M., 2011. Cytoplasmic N-glycosyltransferase of Actinobacillus pleuropneumoniae is an inverting enzyme and recognizes the NX (S/T) consensus sequence. Journal of Biological Chemistry, 286(40), pp.35267-35274. 21852240
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558 Meyer, B.H., Peyfoon, E., Dietrich, C., Hitchen, P., Panico, M., Morris, H.R., Dell, A. and Albers, S.V., 2013. Agl16, a thermophilic glycosyltransferase mediating the last step of N-glycan biosynthesis in the thermoacidophilic crenarchaeon Sulfolobus acidocaldarius. Journal of bacteriology, 195(10), pp.2177-2186. 23475978
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560 Tabei, S.M.B., Hitchen, P.G., Day-Williams, M.J., Merino, S., Vart, R., Pang, P.C., Horsburgh, G.J., Viches, S., Wilhelms, M., Tomás, J.M. and Dell, A., 2009. An Aeromonas caviae genomic island is required for both O-antigen lipopolysaccharide biosynthesis and flagellin glycosylation. Journal of bacteriology, 191(8), pp.2851-2863. 19218387
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565 Kandiba, L. and Eichler, J., 2015. Deciphering a pathway of Halobacterium salinarum N?glycosylation. MicrobiologyOpen, 4(1), pp.28-40. 25461760
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568 Schoenhofen, I.C., Lunin, V.V., Julien, J.P., Li, Y., Ajamian, E., Matte, A., Cygler, M., Brisson, J.R., Aubry, A., Logan, S.M. and Bhatia, S., 2006. Structural and functional characterization of PseC, an aminotransferase involved in the biosynthesis of pseudaminic acid, an essential flagellar modification in Helicobacter pylori. Journal of Biological Chemistry, 281(13), pp.8907-8916. 16421095
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573 Thoden, J.B. and Holden, H.M., 2010. Structural and functional studies of WlbA: A dehydrogenase involved in the biosynthesis of 2, 3-diacetamido-2, 3-dideoxy-D-mannuronic acid. Biochemistry, 49(36), pp.7939-7948. 20690587
574 Namboori, S.C. and Graham, D.E., 2008. Acetamido sugar biosynthesis in the Euryarchaea. Journal of bacteriology, 190(8), pp.2987-2996. 18263721
575 Harvey, H., Kus, J.V., Tessier, L., Kelly, J. and Burrows, L.L., 2011. Pseudomonas aeruginosa D-arabinofuranose biosynthetic pathway and its role in type IV pilus assembly. Journal of Biological Chemistry, 286(32), pp.28128-28137. 21676874
576 Hartley, M.D., Morrison, M.J., Aas, F.E., Børud, B., Koomey, M. and Imperiali, B., 2011. Biochemical characterization of the O-linked glycosylation pathway in Neisseria gonorrhoeae responsible for biosynthesis of protein glycans containing N, N?-diacetylbacillosamine. Biochemistry, 50(22), pp.4936-4948. 21542610
577 Børud, B., Anonsen, J.H., Viburiene, R., Cohen, E.H., Samuelsen, A.B.C. and Koomey, M., 2014. Extended glycan diversity in a bacterial protein glycosylation system linked to allelic polymorphisms and minimal genetic alterations in a glycosyltransferase gene. Molecular microbiology, 94(3), pp.688-699. 25213144
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579 Rainey, K., Michalek, S.M., Wen, Z.T. and Wu, H., 2019. Glycosyltransferase-mediated biofilm matrix dynamics and virulence of Streptococcus mutans. Applied and environmental microbiology, 85(5), pp.e02247-18. 30578260
580 Vershinin, Z., Zaretsky, M., Guan, Z. and Eichler, J., 2021. Identifying Components of a Halobacterium salinarum N-Glycosylation Pathway. Frontiers in microbiology, 12. 34925283
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583 Ishiyama, N., Creuzenet, C., Miller, W.L., Demendi, M., Anderson, E.M., Harauz, G., Lam, J.S. and Berghuis, A.M., 2006. Structural studies of FlaA1 from Helicobacter pylori reveal the mechanism for inverting 4, 6-dehydratase activity. Journal of Biological Chemistry, 281(34), pp.24489-24495. 16651261
584 Brimble, M.A., Edwards, P.J., Harris, P.W., Norris, G.E., Patchett, M.L., Wright, T.H., Yang, S.H. and Carley, S.E., 2015. Synthesis of the antimicrobial S?linked glycopeptide, Glycocin F. Chemistry–A European Journal, 21(9), pp.3556-3561. 25607533
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586 Drummond, B.J., Loo, T.S., Patchett, M.L. and Norris, G.E., 2021. Optimized Genetic Tools Allow the Biosynthesis of Glycocin F and Analogues Designed To Test the Roles of gcc Cluster Genes in Bacteriocin Production. Journal of bacteriology, 203(7), pp.e00529-20. 33468591
587 Calo, D., Guan, Z., Naparstek, S. and Eichler, J., 2011. Different routes to the same ending: comparing the N?glycosylation processes of Haloferax volcanii and Haloarcula marismortui, two halophilic archaea from the Dead Sea. Molecular microbiology, 81(5), pp.1166-1177. 21815949
588 Vinogradov, E., Deschatelets, L., Lamoureux, M., Patel, G.B., Tremblay, T.L., Robotham, A., Goneau, M.F., Cummings-Lorbetskie, C., Watson, D.C., Brisson, J.R. and Kelly, J.F., 2012. Cell surface glycoproteins from Thermoplasma acidophilum are modified with an N-linked glycan containing 6-C-sulfofucose. Glycobiology, 22(9), pp.1256-1267. 22692048
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593 Holten, M.P., Fonseca, D.R. and Costa, K.C., 2021. The Oligosaccharyltransferase AglB Supports Surface-Associated Growth and Iron Oxidation in Methanococcus maripaludis. Applied and environmental microbiology, 87(17), pp.e00995-21. 34132588
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596 Xie, S., Tan, Y., Song, W., Zhang, W., Qi, Q. and Lu, X., 2022. N-glycosylation of a cargo protein C-terminal domain recognized by the type IX secretion system in Cytophaga hutchinsonii affects protein secretion and localization. Applied and environmental microbiology, 88(1), pp.e01606-21. 34644163
597 Xie, S., Huang, Q., Tan, R., Zhang, W., Qi, Q. and Lu, X., 2022. Glycosyltransferase-Related Protein GtrA Is Essential for Localization of Type IX Secretion System Cargo Protein Cellulase Cel9A and Affects Cellulose Degradation in Cytophaga hutchinsonii. Applied and Environmental Microbiology, 88(20), pp.e01076-22. 36197104
598 Knoot, C.J., Wantuch, P.L., Robinson, L.S., Rosen, D.A., Scott, N.E. and Harding, C.M., 2022. Discovery and characterization of a new class of O-linking oligosaccharyltransferases from the Moraxellaceae family. Glycobiology. 36239418
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602 Gaines, M.C., Isupov, M.N., Sivabalasarma, S., Haque, R.U., McLaren, M., Mollat, C.L., Tripp, P., Neuhaus, A., Gold, V.A., Albers, S.V. and Daum, B., 2022. Electron cryo-microscopy reveals the structure of the archaeal thread filament. Nature Communications, 13(1), pp.1-13. 36456543
603 Hadjineophytou, C., Anonsen, J.H., Svingerud, T., Mortimer, T.D., Grad, Y.H., Scott, N.E. and Koomey, M., 2022. Sculpting the Bacterial O-Glycoproteome: Functional Analyses of Orthologous Oligosaccharyltransferases with Diverse Targeting Specificities. Mbio, pp.e03797-21. 35471082
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609 Zaretsky, M., Guan, Z., Zarivach, R. and Eichler, J., 2022. Distinct Regions of the Haloferax volcanii Dolichol Phosphate-Mannose Synthase AglD Mediate the Assembly and Subsequent Processing of the Lipid-Linked Mannose. Journal of Bacteriology, 204(1), pp.e00447-21. 34633871
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