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Anthony Stephen Serianni
Born (1953-11-18) November 18, 1953 (age 70)
NationalityAmerican
EducationBS., Biochemistry
PhD., Biochemistry
Postdoctoral research., Biochemistry, Molecular and Cell Biology
Alma materAlbright College
Michigan State University
Cornell University
Occupation(s)Biochemist, academic and author
Scientific career
InstitutionsUniversity of Notre Dame
Omicron Biochemicals

Anthony Stephen Serianni (born November 18, 1953) is an American biochemist, university professor and entrepreneur. He is professor of Chemistry and Biochemistry at the University of Notre Dame,[1] and President and CEO of Omicron Biochemicals.[2]

Serianni's academic research focuses on carbohydrate and nucleoside chemistry and biochemistry, catalysis in chemical and enzymatic systems, conformational equilibria and dynamics using NMR and computational methods, stable isotope labeling of biologically important compounds, and NMR-based studies of chemical reaction mechanisms. He received Michigan State University's John A. Boezi Memorial Alumnus Award in 2001,[3] University of Notre Dame's Kaneb Teaching Award in 2003,[4] and American Chemical Society's Horace S. Isbell Award (1988) and the Melville L. Wolfrom Award in Carbohydrate Chemistry (2006).[5]

Serianni is an elected Fellow of the Royal Society of Chemistry,[6] the American Chemical Society,[7] and the American Association for the Advancement of Science.[8]

Education

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Serianni graduated with a BS in biochemistry from Albright College in 1975, and earned his PhD from Michigan State University in 1980 under the guidance of Robert Barker. Following doctoral studies, he studied as a Postdoctoral Research Associate in the Section of Biochemistry at Cornell University from 1980 to 1982.[1]

Career

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In 1982, Serianni co-founded Omicron Biochemicals, and has held the position of President and CEO since then. Concurrently, he started his academic career at the University of Notre Dame as an Assistant Professor, later advancing to Professor of Chemistry and Biochemistry in 1999.[1]

Serianni has held leadership positions in the American Chemical Society, serving as Secretary, Chairman-elect, Chairman, Past-chairman, and Councilor of the Division of Carbohydrate Chemistry and Chemical Glycobiology.

Serianni founded the Lake Papakeechie Sustainability Initiative (LaPSI) in 2011, which focuses on evaluating and preserving the health of the Wawasee Area watershed in Indiana. The activities of LaPSI, supported by funds from Omicron Biochemicals, provide guidance to the Papakeechie Protective Association (PPA), which is headquartered in Syracuse, Indiana.[9]

Research

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Serianni has contributed to the fields of chemistry, biochemistry, and biomedicine by studying the structural and dynamic properties of saccharides, their reactivities, and their roles in biological processes, including metabolic pathways and disease mechanisms. He holds a patent for determining the structure of a novel non-protein thermal hysteresis glycolipid based on a xylo-mannan oligosaccharide scaffold.[10]

Synthesis of labeled saccharides

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During graduate studies at Michigan State University, Serianni developed improved synthetic methods to prepare stable isotopically labeled saccharides, primarily using 13C, for use in structural, dynamics, and reactivity studies by NMR spectroscopy. To address the limited synthetic method to prepare labeled saccharides, he introduced a chemical method for site-specific incorporation of 13C and other stable isotopes into aldoses through cyanohydrin reduction, bypassing the traditional Kiliani-Fischer synthesis. He demonstrated the use of enzymes to convert isotopically-labeled aldoses into other biologically-important (phosphorylated) sugars and into oligosaccharides, and discovered a new mechanism of aldose backbone rearrangement (C1–C2 transposition) during C2-epimerization catalyzed by molybdate ion.[11]

NMR methods for saccharide structure and reactivity

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Serianni's early research centered on NMR-based kinetic measurements of saccharide anomerization, the use of stable isotopes to investigate in vivo biological metabolism, and the application of ab initio molecular orbital calculations to saccharide structure and conformation.[12] He showed that saturation-transfer NMR methods could be applied to measure unidirectional rate constants of aldose anomerization by selectively saturating C1 or H1 of the acyclic aldehydicform, allowing precise determinations of ring-opening and ring-closing rate constants.[13] This work showed that furanose ring anomeric configuration influences ring-opening rates via anchimeric assistance.[14] Kinetic studies of phosphorylated sugars highlighted the role of intramolecular catalysis by phosphate in anomerization.[15]

In collaboration with John Duman at Notre Dame, Serianni developed isotope-based NMR tools to study sugar metabolism in the Arctic freeze-tolerant organism, Gynophora groenlandica. His lab designed a 16-mm 13C NMR probe to study live larvae that were injected with labeled saccharides, allowing real-time, non-invasive monitoring of the metabolic fates of specific carbons in the sugars.[16] To complement in vivo studies, he conducted in vitro experiments, incubating specific larvae organs with labeled sugars to map metabolic pathways, revealing metabolic triggers for polyol production, such as glycerol, and explored the effects of hypoxia and mitochondrial changes on cryoprotectant production.[17]

Serianni's early research focused on applying ab initio molecular orbital (MO) theory to study saccharide structure and conformation. An example of an early collaboration with Daniel Chipman at Notre Dame led to studies of tetrafuranose ring conformation at the STO-3G level of ab initio MO theory.[18]

NMR spin-couplings for saccharide structure

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Serianni has devoted much of his research career to developing NMR spin-coupling constants (J-couplings) as quantitative probes of saccharide structure and conformation in solution, publishing over 50 papers on carbon-based J-couplings with Ian Carmichael. This work was initiated in 1993 with a publication in JACS, which showcased a Karplus-like relationship for 1JCC in saccharides, highlighting the power of combining NMR studies with stable isotopes and ab initio molecular orbital calculations.[19] Since then his contributions have focused on 1JCH values as conformational probes of furanose rings[20] and establishing the first 3JCOCC Karplus curve for O-glycosidic linkages, illustrating the influence of terminal electronegative substituents on coupling magnitude.[21][22] He has applied redundant NMR J-couplings to determine exocyclic hydroxymethyl group conformation in saccharides, defined the dependence of 2JCCH values on C–O bond rotations in saccharides, and has shown how hydrogen bond strengths can be determined from 1JCH values.[23][24] In more recent work, his laboratory has introduced a new circular statistics treatment of NMR J-coupling ensembles (MA'AT analysis) to calculate mean torsion angles and their population distributions in O-glycosidic linkages, enabling experimental validation of molecular dynamics predictions.[25]

Serianni has investigated the mechanisms of saccharide degradation using stable isotopes and NMR. His work has demonstrated that the dicarbonyl sugar, 3-deoxyglucosone (3DG), degrades in aqueous solution via a 1,2-hydrogen transfer mechanism, resulting in C2-epimeric metasaccharinic acids.[26] Building on early work, he examined the effect of pyridoxamine on 3DG degradation, as high glucose concentrations in the blood can lead to the in vivo production of 3DG, causing cellular damage through protein glycation and other harmful reactions.[27] In 2012, his group discovered a novel rearrangement of D-glucosone, wherein the molecule undergoes C1–C2 transposition during its conversion to D-ribulose.[28]

Awards and honors

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  • 2001 – John A. Boezi Memorial Alumnus Award, Michigan State University[3]
  • 2003 – Kaneb Teaching Award, University of Notre Dame[4]
  • 2006 – Melville L. Wolfrom Award in Carbohydrate Chemistry, American Chemical Society[5]
  • 2010 – Elected Fellow, American Association for the Advancement of Science[8]
  • 2012 – Elected Fellow, American Chemical Society[7]
  • 2012 – Elected Fellow, Royal Society of Chemistry[6]

Bibliography

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Selected articles

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  • Hayes, M. L., Pennings, N. J., Serianni, A. S., & Barker, R. (1982). Epimerization of aldoses by molybdate involving a novel rearrangement of the carbon skeleton. Journal of the American Chemical Society, 104(24), 6764–6769.
  • Podlasek, C. A., Wu, J., Stripe, W. A., Bondo, P. B., & Serianni, A. S. (1995). [13C] Enriched methyl aldopyranosides: Structural interpretations of 13C-1H spin-coupling constants and 1H chemical shifts. Journal of the American Chemical Society, 117(33), 8635–8644.
  • Zhu, Y., Zajicek, J., & Serianni, A. S. (2001). Acyclic forms of [1-13C] aldohexoses in aqueous solution: Quantitation by 13C NMR and deuterium isotope effects on tautomeric equilibria. The Journal of Organic Chemistry, 66(19), 6244–6251.
  • Stenutz, R., Carmichael, I., Widmalm, G., & Serianni, A. S. (2002). Hydroxymethyl group conformation in saccharides: Structural dependencies of 2JHH, 3JHH, and 1JCH spin−spin coupling constants. The Journal of Organic Chemistry, 67(3), 949–958.
  • Voziyan, P. A., Khalifah, R. G., Thibaudeau, C., Yildiz, A., Jacob, J., Serianni, A. S., & Hudson, B. G. (2003). Modification of proteins in vitro by physiological levels of glucose: Pyridoxamine inhibits conversion of Amadori intermediate to advanced glycation end-products through binding of redox metal ions. Journal of Biological Chemistry, 278(47), 46616–46624.
  • Zhang, W., Meredith, R. J., Wang, X., Woods, R. J., Carmichael, I., & Serianni, A. S. (2024). Does Inter-Residue Hydrogen Bonding in β-(1→4)-Linked Disaccharides Influence Linkage Conformation in Aqueous Solution? The Journal of Physical Chemistry B, 128(10), 2317–2325.

References

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  1. ^ a b c "University of Notre Dame–Anthony Serianni".
  2. ^ "Omicron Biochemicals–Presiden's Note".
  3. ^ a b "Dr. Anthony Serianni".
  4. ^ a b "Joyce Award and Kaneb Award Recipients Cumulative 1999 to 2023" (PDF).
  5. ^ a b "The Melville L. Wolfrom Award".
  6. ^ a b "Dovichi and Serianni named Fellows of the Royal Chemistry Society".
  7. ^ a b "ACS Fellow Award".
  8. ^ a b "AAAS–Elected Fellows".
  9. ^ "Lake Papakeechie Sustainability Initiative".
  10. ^ "Saccharide antifreeze compositions".
  11. ^ Hayes, Michael L.; Pennings, Nicholas J.; Serianni, Anthony S.; Barker, Robert (1982). "Epimerization of aldoses by molybdate involving a novel rearrangement of the carbon skeleton". Journal of the American Chemical Society. 104 (24): 6764–6769. doi:10.1021/ja00388a047.
  12. ^ Serianni, Anthony S.; Nunez, Hernan A.; Barker, Robert (1979). "Carbon-13-enriched carbohydrates. Preparation of aldononitriles and their reduction with a palladium catalyst". Carbohydrate Research. 72: 71–78. doi:10.1016/S0008-6215(00)83924-5.
  13. ^ Serianni, Anthony S.; Pierce, John; Huang, Shaw Guang; Barker, Robert (1982). "Anomerization of furanose sugars: kinetics of ring-opening reactions by proton and carbon-13 saturation-transfer NMR spectroscopy". Journal of the American Chemical Society. 104 (15): 4037–4044. doi:10.1021/ja00379a001.
  14. ^ Snyder, Joseph R.; Johnston, Eric R.; Serianni, Anthony S. (1989). "D-Talose anomerization: NMR methods to evaluate the reaction kinetics". Journal of the American Chemical Society. 111 (7): 2681–2687. doi:10.1021/ja00189a050.
  15. ^ Pierce, John; Serianni, Anthony S.; Barker, Robert (1985). "Anomerization of furanose sugars and sugar phosphates". Journal of the American Chemical Society. 107 (8): 2448–2456. doi:10.1021/ja00294a041.
  16. ^ Kukal, Olga; Serianni, Anthony S.; Duman, John G. (1988). "Glycerol metabolism in a freeze-tolerant arctic insect: an in vivo 13C NMR study". Journal of Comparative Physiology B. 158 (2): 175–183. doi:10.1007/BF01075831. PMID 3170824.
  17. ^ Kukal, Olga; Duman, John G.; Serianni, Anthony S. (1989). "Cold-induced mitochondrial degradation and cryoprotectant synthesis in freeze-tolerant arctic caterpillars". Journal of Comparative Physiology B. 158 (6): 661–671. doi:10.1007/BF00693004. PMID 2715455.
  18. ^ Serianni, Anthony S.; Chipman, Daniel M. (1987). "Furanose ring conformation: the application of ab initio molecular orbital calculations to the structure and dynamics of erythrofuranose and threofuranose rings". Journal of the American Chemical Society. 109 (18): 5297–5303. doi:10.1021/ja00252a001.
  19. ^ Carmichael, Ian; Chipman, Daniel M.; Podlasek, Carol A.; Serianni, Anthony S. (1993). "Torsional effects on the one-bond 13C-13C spin coupling constant in ethylene glycol: insights into the behavior of 1JCC in carbohydrates". Journal of the American Chemical Society. 115 (23): 10863–10870. doi:10.1021/ja00076a050.
  20. ^ Serianni, Anthony S.; Wu, Jian; Carmichael, Ian (1995). "One-bond 13C-1H spin-coupling constants in aldofuranosyl rings: effect of conformation on coupling magnitude". Journal of the American Chemical Society. 117 (33): 8645–8650. doi:10.1021/ja00138a021.
  21. ^ Bose, Bidisha; Zhao, Shikai; Stenutz, Roland; Cloran, Francis; Bondo, Paul B.; Bondo, Gail; Hertz, Brian; Carmichael, Ian; Serianni, Anthony S. (1998). "Three-Bond C−O−C−C Spin-Coupling Constants in Carbohydrates: Development of a Karplus Relationship". Journal of the American Chemical Society. 120 (43): 11158–11173. doi:10.1021/ja981127f.
  22. ^ Zhao, Hongqiu; Carmichael, Ian; Serianni, Anthony S. (2008). "Oligosaccharide Trans-Glycoside 3JCOCC Karplus Curves Are Not Equivalent: Effect of Internal Electronegative Substituents". The Journal of Organic Chemistry. 73 (8): 3255–3257. doi:10.1021/jo702288h. PMID 18351773.
  23. ^ Thibaudeau, Christophe; Stenutz, Roland; Hertz, Brian; Klepach, Thomas; Zhao, Shikai; Wu, Qingquan; Carmichael, Ian; Serianni, Anthony S. (2004). "Correlated C−C and C−O Bond Conformations in Saccharide Hydroxymethyl Groups: Parametrization and Application of Redundant 1H−1H, 13C−1H, and 13C−13C NMR J-Couplings". Journal of the American Chemical Society. 126 (48): 15668–15685. doi:10.1021/ja0306718. PMID 15571389.
  24. ^ Maiti, Nakul C.; Zhu, Yuping; Carmichael, Ian; Serianni, Anthony S.; Anderson, Vernon E. (2006). "1JCHCorrelates with Alcohol Hydrogen Bond Strength". The Journal of Organic Chemistry. 71 (7): 2878–2880. doi:10.1021/jo052389k. PMID 16555846.
  25. ^ Klepach, Thomas E.; Carmichael, Ian; Serianni, Anthony S. (2005). "Geminal 2JCC Spin−Spin Coupling Constants as Probes of the φ Glycosidic Torsion Angle in Oligosaccharides". Journal of the American Chemical Society. 127 (27): 9781–9793. doi:10.1021/ja040251y. PMID 15998083.
  26. ^ Walters, Kent R.; Serianni, Anthony S.; Sformo, Todd; Barnes, Brian M.; Duman, John G. (2009). "A nonprotein thermal hysteresis-producing xylomannan antifreeze in the freeze-tolerant Alaskan beetle Upis ceramboides". Proceedings of the National Academy of Sciences. 106 (48): 20210–20215. Bibcode:2009PNAS..10620210W. doi:10.1073/pnas.0909872106. PMC 2787118. PMID 19934038.
  27. ^ Zhang, Wenhui; Carmichael, Ian; Serianni, Anthony S. (2011). "Rearrangement of 3-Deoxy-d-erythro-hexos-2-ulose in Aqueous Solution: NMR Evidence of Intramolecular 1,2-Hydrogen Transfer". The Journal of Organic Chemistry. 76 (20): 8151–8158. doi:10.1021/jo200288t. PMID 21793547.
  28. ^ Zhang, Wenhui; Serianni, Anthony S. (2012). "Phosphate-Catalyzed Degradation of d-Glucosone in Aqueous Solution Is Accompanied by C1–C2 Transposition". Journal of the American Chemical Society. 134 (28): 11511–11524. doi:10.1021/ja3020296. PMID 22650268.
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