Publications

2022

  • Young, I. D.; Nepogodiev, S. A.;  Black, I. M.;  Gall, G. L.;  Wittmann, A.;  Latousakis, D.;  Visnapuu, T.;  Azadi, P.;  Field, R. A.;  Juge, N.; Kawasaki, N., Lipopolysaccharide associated with β-2,6 fructan mediates TLR4-dependent immunomodulatory activity in vitro. Carbohydr. Polym. 2022, 227, 118606.
  • Ndukwe, G. I.; Jack, I. R.; Ekong, R. E., Glycosylated stigmasterol from the rind of Napoleonaea imperialis. Ovidius University Annals of Chemistry 2022, 33 (1), 1-6.
  • Janot, K. G.; Unda, F.;  Mansfield, S. D.; Martone, P. T., Evolutionary patterns in chemical composition and biomechanics of articulated coralline algae. Integrative and Comparative Biology 2022.
  • Jain, M.; Cai, L.;  Black, I.;  Azadi, P.;  Carlson, R. W.;  Jones, K. M.; Gabriel, D. W., ‘Candidatus Liberibacter asiaticus’-Encoded BCP Peroxiredoxin Suppresses Lipopolysaccharide-Mediated Defense Signaling and Nitrosative Stress in Planta. Molecular Plant-Microbe Interactions 2022, MPMI-09-21-0230-R.
  • Hotchkiss Jr, A. T.; Chau, H. K.;  Strahan, G. D.;  Nuñez, A.;  Simon, S.;  White, A. K.;  Dieng, S.;  Heuberger, E. R.;  Yadav, M. P.; Hirsch, J., Structural characterization of red beet fiber and pectin. Food Hydrocolloids 2022, 129, 107549.
  • Cao, X.; Xu, L.;  Chen, Y. P.;  Decho, A. W.;  Cui, Z.; Lead, J. R., Contribution, Composition, and Structure of EPS by In Vivo Exposure to Elucidate the Mechanisms of Nanoparticle-Enhanced Bioremediation to Metals. Environ. Sci. Technol. 2022, 56, 896.
  • Biswal, A. K.; Hengge, N. N.;  Black, I. M.;  Atmodjo, M. A.;  Mohanty, S. S.;  Ryno, D.;  Himmel, M. E.;  Azadi, P.;  Bomble, Y. J.; Mohnen, D., Composition and yield of non-cellulosic and cellulosic sugars in soluble and particulate fractions during consolidated bioprocessing of poplar biomass by Clostridium thermocellum. Biotechnology for Biofuels and Bioproducts 2022, 15 (1), 1-18.
  • Amos, R.; Atmodjo, M.;  Huang, C.;  Gao, Z.;  Venkat, A.;  Taujale, R.;  Kannan, N.;  Moremen, K.; Mohnen, D., Polymerization of the backbone of the pectic polysaccharide rhamnogalacturonan I. 2022.

2021

  • Zeb, M.;  Tackaberry, L. E.;  Massicotte, H. B.;  Egger, K. N.;  Reimer, K.;  Lu, G.;  Heiss, C.;  Azadi, P.; Lee, C. H., Structural elucidation and immuno-stimulatory activity of a novel polysaccharide containing glucuronic acid from the fungus Echinodontium tinctorium. Carbohydr. Polym. 2021, 258, 117700.
  • Zamakhaeva, S.; Chaton, C. T.;  Rush, J. S.;  Ajay Castro, S.;  Kenner, C. W.;  Yarawsky, A. E.;  Herr, A. B.;  van Sorge, N. M.;  Dorfmueller, H. C.; Frolenkov, G. I., Modification of cell wall polysaccharide guides cell division in Streptococcus mutans. Nat. Chem. Biol. 2021, 17 (8), 878-887.
  • Yuan, X.; McGhee, G. C.;  Slack, S. M.; Sundin, G. W., A Novel Signaling Pathway Connects Thiamine Biosynthesis, Bacterial Respiration, and Production of the Exopolysaccharide Amylovoran in Erwinia amylovora. Molecular Plant-Microbe Interactions 2021, 34 (10), 1193-1208.
  • Wilson, L. A.; Deligey, F.;  Wang, T.; Cosgrove, D. J., Saccharide analysis of onion outer epidermal walls. Biotechnology for biofuels 2021, 14 (1), 1-14.
  • Wesener, D. A.; Beller, Z. W.;  Peters, S. L.;  Rajabi, A.;  Dimartino, G.;  Giannone, R. J.;  Hettich, R. L.; Gordon, J. I., Microbiota functional activity biosensors for characterizing nutrient metabolism in vivo. Elife 2021, 10, e64478.
  • Sun, X.; Wu, Q.;  Picha, D. H.;  Ferguson, M. H.;  Ndukwe, I. E.; Azadi, P., Comparative performance of bio-based coatings formulated with cellulose, chitin, and chitosan nanomaterials suitable for fruit preservation. Carbohydr. Polym. 2021, 259, 117764.
  • Soto, M. J.; Prabhakar, P. K.;  Wang, H.-T.;  Backe, J.;  Chapla, D.;  Bartetzko, M.;  Black, I. M.;  Azadi, P.;  Peña, M. J.; Pfrengle, F., AtFUT4 and AtFUT6 Are Arabinofuranose-Specific Fucosyltransferases. Frontiers in plant science 2021, 12, 132.
  • Shajahan, A.; Pepi, L. E.;  Rouhani, D. S.;  Heiss, C.; Azadi, P., Glycosylation of SARS-CoV-2: structural and functional insights. Analytical and bioanalytical chemistry 2021, 413 (29), 7179-7193.
  • Poulhazan, A.; Dickwella Widanage, M. C.;  Muszyński, A.;  Arnold, A. A.;  Warschawski, D. E.;  Azadi, P.;  Marcotte, I.; Wang, T., Identification and quantification of glycans in whole cells: architecture of microalgal polysaccharides described by solid-state nuclear magnetic resonance. Journal of the American Chemical Society 2021, 143 (46), 19374-19388.
  • Muszyński, A.; Zarember, K. A.;  Heiss, C.;  Shiloach, J.;  Berg, L. J.;  Audley, J.;  Kozyr, A.;  Greenberg, D. E.;  Holland, S. M.;  Malech, H. L.;  Azadi, P.;  Carlson, R. W.; Gallin, J. I., Granulibacter bethesdensis, a Pathogen from Patients with Chronic Granulomatous Disease, Produces a Penta-Acylated Hypostimulatory Glycero-D-talo-oct-2-ulosonic Acid–Lipid A Glycolipid (Ko-Lipid A). Int. J. Mol. Sci. 2021, 22, 3303.
  • Mishler-Elmore, J. W.; Zhou, Y.;  Sukul, A.;  Oblak, M.;  Tan, L.;  Faik, A.; Held, M. A., Extensins: Self-assembly, crosslinking, and the role of peroxidases. Frontiers in Plant Science 2021, 12, 872.
  • Mela, A.; Momany, M., Septins coordinate cell wall integrity and lipid metabolism in a sphingolipid-dependent process. J. Cell Sci. 2021, 135, https://doi.org/10.1242/jcs.258336.
  • Ma, Z.; Liu, X.;  Nath, S.;  Sun, H.;  Tran, T. M.;  Yang, L.;  Mayor, S.; YansongMiao, Formin nanoclustering-mediated actin assembly during plant flagellin and DSF signaling. Cell Rep. 2021, 34, 108884.
  • Lin, Y.; Olukosi, O. A., Qualitative and quantitative profiles of jejunal oligosaccharides and cecal short_chain fatty acids in broiler chickens receiving different dietary levels of fiber, protein and exogenous enzymes. Journal of the Science of Food and Agriculture 2021, https://doi.org/10.1002/jsfa.11165.
  • Lin, Y.; Olukosi, O. A., Exogenous Enzymes Influenced Eimeria-Induced Changes in Cecal Fermentation Profile and Gene Expression of Nutrient Transporters in Broiler Chickens. Animals 2021, 11 (9), 2698.
  • Jun, J. H.; Lu, N.;  Docampo-Palacios, M.;  Wang, X.; Dixon, R. A., Dual activity of anthocyanidin reductase supports the dominant plant proanthocyanidin extension unit pathway. Science Advances 2021, 7 (20), eabg4682.
  • Jr., A. T. H.; Chau, H. K.;  Strahan, G. D.;  Nuñez, A.;  Simon, S.;  White, A. K.;  Dieng, S.;  Heuberger, E. R.;  Yadav, M. P.; Hirsch, J., Structure and composition of blueberry fiber pectin and xyloglucan that bind anthocyanins during fruit puree processing. Food Hydrocolloids 2021, 116, 106572.
  • Henke, M. T.; Brown, E. M.;  Cassilly, C. D.;  Vlamakis, H.;  Xavier, R. J.; Clardy, J., Capsular polysaccharide correlates with immune response to the human gut microbe Ruminococcus gnavus. Proceedings of the National Academy of Sciences 2021, 118 (20).
  • Heiss, C.; Black, I.;  Ishihara, M.;  Tatli, M.;  Devarenne, T. P.; Azadi, P., Structure of the Polysaccharide Sheath from the B Race of the Green Microalga Botryococcus braunii. Algal Research 2021, 55, 102252.
  • Gysel, K.; Laursen, M.;  Thygesen, M. B.;  Lironi, D.;  Bozsóki, Z.;  Hjuler, C. T.;  Maolanon, N. N.;  Cheng, J.;  Bjørk, P. K.;  Vinther, M.;  Madsen, L. H.;  Rübsam, H.;  Muszynski, A.;  Ghodrati, A.;  Azadi, P.;  Sullivan, J. T.;  Ronson, C. W.;  Jensen, K. J.;  Blaise, M.;  Radutoiu, S.;  Stougaard, J.; Andersen, K. R., Kinetic proofreading of lipochitooligosaccharides determines signal activation of symbiotic plant receptors. Proceedings of the National Academy of Sciences 2021, 118, 44.
  • Galloway, A. F.; Akhtar, J.;  Burak, E.;  Marcus, S. E.;  Field, K. J.;  Dodd, I. C.; Knox, P., A soil-binding polysaccharide complex released from root hairs functions in rhizosheath formation. bioRxiv 2021.
  • Engle, K. A.; Amos, R. A.;  Yang, J. Y.;  Glushka, J.;  Atmodjo, M.;  Tan, L.;  Huang, C.;  Moremen, K. W.; Mohnen, D., Multiple Arabidopsis Galacturonosyltransferases (GAUTs) synthesize polymeric homogalacturonan by oligosaccharide acceptor‐dependent or de novo synthesis. The Plant Journal 2021, DOI: 10.1111/tpj.15640.
  • Cano, M.; Karns, D. A.;  Weissman, J. C.;  Heinnickel, M. L.; Posewitz, M. C., Pigment modulation in response to irradiance intensity in the fast-growing alga Picochlorum celeri. Algal Research 2021, 58, 102370.
  • Bogacz, M.; Abbar, F. M. E.;  Cox, C. A.;  Li, J.;  Fiedler, J. S.;  Tran, L. K. H.;  Tran, P. M. H.;  Daugherty, C. L.;  Blake, K. H.;  Wang, Z.;  Azadi, P.; Thompson, S. A., Binding of Campylobacter jejuni FliW Adjacent to the CsrA RNA-Binding Pockets Modulates CsrA Regulatory Activity. Front. Microbiol. 2021, 11, 531596.
  • Black, I. M.; Heiss, C.;  Jain, M.;  Muszyński, A.;  Carlson, R. W.;  Gabriel, D. W.; Azadi, P., Structure of Lipopolysaccharide from Liberibacter crescens Is Low Molecular Weight and Offers Insight into Candidatus Liberibacter Biology. Int. J. Mol. Sci. 2021, 22 (20), 11240.
  • Black, I.; Heiss, C.;  Carlson, R. W.; Azadi, P., Linkage Analysis of Oligosaccharides and Polysaccharides: A Tutorial. In Mass Spectrometry of Glycoproteins. Methods in Molecular Biology, vol 2271, Delobel, A., Ed. Humana: New York, NY, 2021.
  • Barnes, W.; Koj, S.;  Black, I.;  Archer-Hartmann, S.;  Azadi, P.;  Urbanowicz, B.;  Peña, M.; O’Neill, M., Protocols for isolating and characterizing polysaccharides from plant cell walls: A case study using Rhamnogalacturonan-II. Biotechnology for Biofuels 2021, DOI: 10.21203/rs.3.rs-216748/v1.

2020

  • Zhong, Z.;  Emond-Rheault, J.-G.;  Bhandare, S.;  Lévesque, R.; Goodridge, L., Bacteriophage-Induced Lipopolysaccharide Mutations in Escherichia coli Lead to Hypersensitivity to Food Grade Surfactant Sodium Dodecyl Sulfate. Antibiotics 2020, 9, 552.
  • Zhong; R.;  Cui;  D.;  Richardson;  A., E.;  Phillips;  R., D.;  Azadi;  P.;  Lu;  Ye, G. a.; Z.-H., Cytosolic Acetyl-CoA Generated by ATP-Citrate Lyase Is Essential for Acetylation of Cell Wall Polysaccharides. Plant Cell Physiol. 2020, 61, 64.
  • Zheng, Y.; Pierce, A.;  Wagner, W. L.;  Scheller, H. V.;  Mohnen, D.;  Ackermann, M.; Mentzer , S. J., Water-Dependent Blending of Pectin Films: The Mechanics of Conjoined Biopolymers. Molecules 2020, 25, 2108.
  • Zhen, W.; Shao, Y.;  Wu, Y.;  Li, L.;  Pham, V. H.;  Abbas, W.;  Wan, Z.;  Guo, Y.; Wang, Z., Dietary yeast beta-glucan supplementation improves eggshell color and fertile eggs hatchability as well as enhances immune functions in breeder laying hens. Int. J. Biol. Macromol. 2020, 159, 607.
  • Wong, J. E. M. M.; Gysel, K.;  Birkefeldt, T. G.;  Vinther, M.;  Muszy_ski, A.;  Azadi, P.;  Laursen, N. S.;  Sullivan, J. T.;  Ronson, C. W.;  Stougaard, J.; Andersen, K. R., Structural signatures in EPR3 define a unique class of plant carbohydrate receptors. Nature Communications 2020, 11, 3797.
  • Wenzel, C. Q.; Mills, D. C.;  Dobruchowska, J. M.;  Vlach, J.;  Nothaft, H.;  Nation, P.;  Azadi, P.;  Melville, S. B.;  Carlson, R. W.;  Feldman, M. F.; Szymanski, C. M., An atypical lipoteichoic acid from Clostridium perfringens elicits a broadly cross-reactive and protective immune response. J. Biol. Chem. 2020, 295, 9513.
  • Smith, P. J.; O’Neill, M. A.;  Backe, J.;  York, W. S.;  Peña, M. J.; Urbanowicz, B. R., Analytical techniques for determining the role of domain of unknown function 579 proteins in the synthesis of O-methylated plant polysaccharides. SLAS TECHNOLOGY: Translating Life Sciences Innovation 2020, 25 (4), 345-355.
  • Shajahan, A.; Archer-Hartmann, S.;  Supekar, N. T.;  Gleinich, A. S.;  Heiss, C.; Azadi, P., Comprehensive characterization of N- and O- glycosylation of SARS-CoV-2 human receptor angiotensin converting enzyme 2. Glycobiology 2020, https://doi.org/10.1093/glycob/cwaa101.
  • Ruprecht, C.; Bartetzko, M. P.;  Senf, D.;  Lakhina, A.;  Smith, P. J.;  Soto, M. J.;  Oh, H.;  Yang, J. Y.;  Chapla, D.; Varon Silva, D., A glycan array‐based assay for the identification and characterization of plant glycosyltransferases. Angew. Chem. Int. Ed. 2020, 59 (30), 12493-12498.
  • Porsch, E. A.; Yagupsky, P.; III, J. W. S. G., Kingella negevensis shares multiple putative virulence factors with Kingella kingae. PLoS One 2020, 10, 1371.
  • Pierce, A.; Zheng, Y.;  Wagner, W. L.;  Scheller, H. V.;  Mohnen, D.;  Ackermann, M.; Mentzer, S. J., Visualizing pectin polymer-polymer entanglement produced by interfacial water movement. Carbohydr. Polym. 2020, 246, 116618.
  • Omran, A.; Menor-Salvan, C.;  Springsteen, G.; Pasek, M., The Messy Alkaline Formose Reaction and Its Link to Metabolism. Life 2020, 10, 125.
  • Omran, A., Plausibility of the Formose Reaction in Alkaline Hydrothermal Vent Environments. Origins of Life and Evolution of Biospheres 2020, https://doi.org/10.1007/s11084-020-09599-5.
  • O’Neill, M. A.; Black, I.;  Urbanowicz, B.;  Bharadwaj, V.;  Crowley, M.;  Koj, S.; Peña, M. J., Locating Methyl-Etherified and Methyl-Esterified Uronic Acids in the Plant Cell Wall Pectic Polysaccharide Rhamnogalacturonan II. SLAS TECHNOLOGY: Translating Life Sciences Innovation 2020, 25, 4.
  • Ndukwe, I. E.; Wang, X.;  Lam, N. Y.;  Ermanis, K.;  Alexander, K. L.;  Bertin, M. J.;  Martin, G. E.;  Muir, G.;  Paterson, I.; Britton, R., Synergism of anisotropic and computational NMR methods reveals the likely configuration of phormidolide A. Chem. Commun. 2020, 56 (55), 7565-7568.
  • Ndukwe, I. E.; Black, I.;  Heiss, C.; Azadi, P., Evaluating the utility of permethylated polysaccharide solution NMR data for characterization of insoluble plant cell wall polysaccharides. Anal. Chem. 2020, 92 (19), 13221-13228.
  • Muhidinov, Z. K.; Bobokalonov, J. T.;  Ismoilov, I. B.;  Strahan, G. D.;  Chau, H. K.;  Hotchkiss, A. T.; Liu, L., Characterization of two types of polysaccharides from Eremurus hissaricus roots growing in Tajikistan. Food Hydrocolloids 2020, 105, 105768.
  • Lunin, V. V.; Wang, H.-T.;  Bharadwaj, V. S.;  Alahuhta, M.;  Peña, M. J.;  Yang, J.-Y.;  Archer-Hartmann, S. A.;  Azadi, P.;  Himmel, M. E.; Moremen, K. W., Molecular mechanism of polysaccharide acetylation by the Arabidopsis xylan O-acetyltransferase XOAT1. The Plant Cell 2020, 32 (7), 2367-2382.
  • Justen, A. M.; Hodges, H. L.;  Kim, L. M.;  Sadecki, P. W.;  Porfirio, S.;  Ultee, E.;  Black, I.;  Chung, G. S.;  Briegel, A.;  Azadi, P.; Kiessling, L. L., Polysaccharide length affects mycobacterial cell shape and antibiotic susceptibility. Science Advances 2020, 6, eaba4015.
  • Jiao, C.; Sørensen, I.;  Sun, X.;  Sun, H.;  Behar, H.;  Alseekh, S.;  Philippe, G.;  Lopez, K. P.;  Sun, L.; Reed, R., The Penium margaritaceum genome: hallmarks of the origins of land plants. Cell 2020, 181 (5), 1097-1111. e12.
  • Hutcheson, A. R.; Thompson, K.;  Maurer, J. J.;  Ferguson, N.;  Grogan, K.;  Roney, S.;  Seahorn, H.;  Lobsinger, C.; Lee, M. D., Differentiating vaccine-related fowl cholera from naturally occurring disease. Avian Dis. 2020, 64 (4), 437-444.
  • Hu, G.; Ellberg, S.;  Burton, C.;  Evans, C.;  Satterfield, K.; Bockelman, H., Application of an orcinol-ferric chloride colorimetric assay in barley and wheat accessions for water-extractable and total arabinoxylan. Journal of Cereal Science 2020, 93, 102962.
  • González-Hourcade, M.; Campo, E. M. d.;  Braga, M. R.;  Salgado, A.; Casano, L. M., Disentangling the role of extracellular polysaccharides in desiccation tolerance in lichen-forming microalgae. First evidence of sulfated polysaccharides and ancient sulfotransferase genes. Environ. Microbiol. 2020, 22, 3096.
  • González-Hourcade, M.; Braga, M. R.;  Campo, E. M. d.;  Ascaso, C.;  Patiño, C.; Casano, L. M., Ultrastructural and biochemical analyses reveal cell wall remodelling in lichen-forming microalgae submitted to cyclic desiccation–rehydration. Ann. Bot. 2020, 125, 459.
  • Ghosh, R.; .Bryant, D. L.;  Arivett, B. A.;  Smith, S. A.;  Altman, E.;  Kline, P. C.; Faroneac, A. L., An acidic polysaccharide (AGC3) isolated from North American ginseng (Panax quinquefolius) suspension culture as a potential immunomodulatory nutraceutical. Current Research in Food Science 2020, 3, 207.
  • Ganaie, F.; Saad, J. S.;  McGee, L.;  Tonder, A. J. v.;  Bentley, S. D.;  Lo, S. W.;  Gladstone, R. A.;  Turner, P.;  Keenan, J. D.;  Breiman, R. F.; Nahm, M. H., A new pneumococcal capsule type, 10D, is the 100th serotype and has a large cps fragment from an oral streptococcus. mBio 2020, 11, 3.
  • Galloway, A. F.; Akhtar, J.;  Marcus, S. E.;  Fletche, N.;  Field, r. K.; Knox, P., Cereal root exudates contain highly structurally complex polysaccharides with soil_binding properties. The Plant Journal 2020, 103, 1666.
  • Fang, H.; Hood, E. E., An Arabinoxylan Extracted from Corn Grain Is Inhibitory to Cellulase Activity. Industrial Biotechnology 2020, 16, 5.
  • Docampo-Palacios, M. L.; Adiji, A. A.-H. O.;  Gamiotea-Turro, D.;  Valerino-Diaz, A. B.;  Viegas, L. P.;  Ndukwe, I. E.;  Fátima, Â. d.;  C.Heiss;  Azadi, P.;  G.Pasinetti; Dixon, R. A., Glucuronidation of Methylated Quercetin Derivatives: Chemical and Biochemical Approaches. Journal of Agricultural and Food Chemistry 2020, 68, 50.
  • C., S. J.; Asif, S.;  James, B.;  T., P. R.;  Annika, F.;  R., H. D.;  Alain, S.;  Parastoo, A.; M., S. C., Binding of Phage-Encoded FlaGrab to Motile Campylobacter jejuni Flagella Inhibits Growth, Downregulates Energy Metabolism, and Requires Specific Flagellar Glycans. Front. Microbiol. 2020, 11, 397.
  • Azurmendi, H. F.; Veeramachineni, V.;  Freese, S.;  Lichaa, F.;  Freedberg, D. I.; F.Vann, W., Chemical structure and genetic organization of the E. coli O6:K15 capsular polysaccharide. Sci. Rep. 2020, 10, 12608.
  • Asif Shajahan; T. Supekar, N.;  S. Gleinich, A.;  Parastoo Azadi, Deducing the N- and O-glycosylation profile of the spike protein of novel coronavirus SARS-CoV-2. Glycobiology 2020, 30, 981.
  • Agrawal, S.; Heiss, C.;  Zuckerman, D. M.;  So, J. M. T.;  Semeijn, K.;  Naran, R.;  Azadi, P.; Hoiczyk, E., Structure and function of a novel osmoregulated periplasmic fiber-forming high-molecular-weight carbohydrate of Myxococcus xanthus. bioRxiv 2020, https://doi.org/10.1101/2020.07.26.208595.

2019

  • Wilkop, T.;  Pattathil, S.;  Ren, G.;  Davis, D. J.;  Bao, W.;  Duan, D.;  Peralta, A. G.;  Domozych, D. S.;  Hahn, M. G.; Drakakaki, G., A Hybrid Approach Enabling Large-Scale Glycomic Analysis of Post-Golgi Vesicles Reveals a Transport Route for Polysaccharides. The Plant Cell 2019, 31, 627.
  • Souza, A. C. O.; Faval, C.;  Soares, N. C.;  Tavares, N. M.;  Jerônimo, M. S.;  Junior, P. H. V.;  Marina, C. L.;  Santos, C.;  Brodskyn, C.; Bocca, A. L., New Role of P. brasiliensis alpha-Glucan: Differentiation of Non-conventional Dendritic Cells. Front. Microbiol. 2019, 10, 2445.
  • Radja, A.; Horsley, E. M.;  Lavrentovich, M. O.; M.Sweeney, A., Pollen Cell Wall Patterns Form from Modulated Phases. Cell 2019, 176, 856.
  • Porfírio, S.; Carlson, R. W.; Azadi, P., Elucidating Peptidoglycan Structure: An Analytical Toolset. Trends Microbiol. 2019, 27, 607.
  • Patnode; M.;  Beller;  Z.;  Han;  N.;  Cheng;  J.;  Peters;  S.;  Terrapon;  N.;  Henrissat;  B.;  Gall, L.;  S.;  Saulnier;  L.;  Hayashi;  D.;  Meynier;  A.;  Vinoy;  S.;  Giannone;  R.;  Hettich;  R.;  Gordon; J, Interspecies Competition Impacts Targeted Manipulation of Human Gut Bacteria by Fiber-Derived Glycans. Cell 2019, 179, 59.
  • Okekeogbu, I. O.; Pattathil, S.;  González Fernández-Niño, S. M.;  Aryal, U. K.;  Penning, B. W.;  Lao, J.;  Heazlewood, J. L.;  Hahn, M. G.;  McCann, M. C.; Carpita, N. C., Glycome and proteome components of Golgi membranes are common between two angiosperms with distinct cell-wall structures. The Plant Cell 2019, 31 (5), 1094-1112.
  • Ming, C.; Dilokpimol, A.;  Zou, C.;  Liao, W.;  Zhao, L.;  Wang, M.;  De Vries, R. P.; Kang, Y., The quest for fungal strains and their co-culture potential to improve enzymatic degradation of Chinese distillers’ grain and other agricultural wastes. International Biodeterioration & Biodegradation 2019, 144, 104765.
  • Mashima, K.; Hatano, M.;  Suzuki, H.;  Shimosaka, M.; Taguchi, G., Identification and Characterization of Apigenin 6-C-Glucosyltransferase Involved in Biosynthesis of Isosaponarin in Wasabi (Eutrema japonicum). Plant Cell Physiol. 2019, 60, 2733.
  • Liu, C.; Minami, A.;  Ozaki, T.;  Wu, J.;  Kawagishi, H.;  Maruyama, J.-i.; Oikawa, H., Efficient Reconstitution of Basidiomycota Diterpene Erinacine Gene Cluster in Ascomycota Host Aspergillus oryzae Based on Genomic DNA Sequences. Journal of the American Chemical Society 2019, 141, 15519.
  • Lima, B. P.; Kho, K.;  Nairn, B. L.;  Davies, J. R.;  Svensa_ter, G.;  Chen, R.;  Steffes, A.;  Vreeman, G. W.;  Meredith, T. C.; Herzberg, M. C., Streptococcus gordonii Type I Lipoteichoic Acid Contributes to Surface Protein Biogenesis. mSphere 2019, e00814.
  • Li, M.; Yoo, C. G.;  Pu, Y.;  Biswal, A. K.;  Tolbert, A. K.;  Mohnen, D.; Ragauskas , A. J., Downregulation of pectin biosynthesis gene GAUT4 leads to reduced ferulate and lignin-carbohydrate cross-linking in switchgrass. Communications Biology 2019, 2, 22.
  • Korir, M. L.; Dale, J. L.; Dunny, G. M., Role of epaQ, a Previously Uncharacterized Enterococcus faecalis Gene, in Biofilm Development and Antimicrobial Resistance. J. Bacteriol. 2019, 201, e00078.
  • Hosain, N. A.; Ghosh, R.;  Bryant, D. L.;  Arivett, B. A.;  Farone, A. L.; Kline, P. C., Isolation, structure elucidation, and immunostimulatory activity of polysaccharide fractions from Boswellia carterii frankincense resin. Int. J. Biol. Macromol. 2019, 133, 76.
  • Hershey, D. M.; Porfírio, S.;  Black, I.;  Jaehrig, B.;  Heiss, C.;  Azadi, P.;  Fiebig, A.; Crosson, S., Composition of the Holdfast Polysaccharide from Caulobacter crescentus. J. Bacteriol. 2019, 201, e00276.
  • Henke, M. T.; Kenny, D. J.;  Cassilly, C. D.;  Vlamakis, H.;  Xavier, R. J.; Clardy, J., Ruminococcus gnavus, a member of the human gut microbiome associated with Crohn’s disease, produces an inflammatory polysaccharide. Proceedings of the National Academy of Sciences USA 2019, 116, 12672.
  • Heiss, C.; Wang, Z.;  Thurlow, C. M.;  Hossain, M. J.;  Sun, D.;  Liles, M. R.;  Saper, M. A.; Azadi, P., Structure of the capsule and lipopolysaccharide O-antigen from the channel catfish pathogen, Aeromonas hydrophila. Carbohydr. Res. 2019, 486, 107858.
  • Hadaidi, G.; Gegner, H. M.;  Ziegler, M.; Voolstra , C. R., Carbohydrate composition of mucus from scleractinian corals from the central Red Sea. Coral Reefs 2019, 38, 21.
  • Ghosh, R.; Smith, S. A.;  E.Nwangwa, E.;  Arivett, B. A.;  L.Bryant, D.;  Fuller, M. L.;  Hayes, D.;  Bowling, J. L.;  Nelson, D. E.;  DuBois, J. D.;  Altman, E.;  Kline, P. C.; Farone, A. L., Panax quinquefolius (North American ginseng) cell suspension culture as a source of bioactive polysaccharides: Immunostimulatory activity and characterization of a neutral polysaccharide AGC1. Int. J. Biol. Macromol. 2019, 139, 221.
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