Publications from the Mahal Lab

1. Mahal, L.K. Catching Bacteria with Sugar. Chem. & Biol., 2004, 11, 1602-1604.

2. Pilobello, K.T.; Krishnamoorthy, L.; Slawek, D.; Mahal, L.K. Development of a Lectin Microarray for the Rapid Analysis of Protein Glycopatterns. ChemBioChem 2005, 6, 985-989.

3. Hsu, K.-L.; Pilobello, K.T; Mahal, L.K. Analyzing the dynamic bacterial glycome with a lectinmicroarray approach. Nature Chem. Biol. 2006, 2, 153-157.

4. Sanki, A.; Mahal, L.K. A One-Step Synthesis of Azide-Tagged Carbohydrates: VersatileIntermediates for Glycotechnology. Synlett 2006, 3, 455-459.

5. Hsu, K.-L.; Mahal, L. K. Profiling the sweet structures of the bacterial glycome. Nature Protocols, 2006, 1, 543-549.

6. Carrillo, L.D.; Krishnamoorthy, L.; Mahal, L.K. A Cellular FRET Sensor for β-O-GlcNAc, a Dynamic Carbohydrate Modification Involved in Signaling, J. Am. Chem. Soc., 2006, 128, 14768-14769.

7. Pilobello, K.T.; Mahal, L.K. Deciphering the glycocode: the complexity and analytical challenge of glycomics, Curr. Opin. Chem. Biol., 2007 11, 300-305.

8. Pilobello, K.T.; Slawek, D.; Mahal, L.K. A ratiometric lectin microarray approach to analysis of the dynamic mammalian glycome, Proc. Natl. Acad. Sci., USA, 2007, 104, 10534-10539.

9. Pilobello, K.T.; Mahal, L.K. Lectin Microarrays for Glycoprotein Analysis, Methods Mol. Biol., 2008, 385, 193-203.

10.Mahal, L.K. Glycomics: Towards Bioinformatic Approaches to Understanding Glycosylation, Anti-Cancer Agents Med. Chem. 2008, 8, 37-51.

11.Hsu, K.-L.; Gildersleeve, J.C.; Mahal, L.K. A simple strategy for the creation of a recombinant lectin microarray, Mol. BioSystems, 2008, 4, 654-662.

12. Krishnamoorthy, L.; Bess, J.W.; Preston, A.B.; Nagashima, K.; Mahal, L.K. HIV-1 and microvesicles from T cells share a common glycome, arguing for a common origin, Nature Chem. Biol. 2009 5, 244-250.

13. Hsu K.L.; Mahal L.K. Sweet tasting chips: microarray-based analysis of glycans. Curr Opin Chem Biol. 2009. 13, 427-432.

14. Lebrilla C.B.; Mahal L.K. Post-translation modifications. Curr Opin Chem Biol. 2009 13, 373-374.

15. Krishnamoorthy L.; Mahal L.K. Glycomic analysis: an array of technologies. ACS Chem Biol. 2009, 4, 715-732.

16. Propheter, D.C.; Hsu, K.-L.; Mahal, L.K. Fabrication of an Oriented Lectin Microarray, ChemBioChem, 2010, 11, 1203-1207.

17. Hsu, KL; Pilobello, K.; Krishnamoorthy, L; Mahal, L.K., Ratiometric lectin micorarray analysis of the mammalian cell surface glycome. Methods Mol. Biol. 2011, 671, 117-31.

18. Carillo, L.D.; Froemming, J.A.; Mahal, L.K., Targeted in Vivo O-GlcNAc Sensor Reveals Discrete Compartment-specific Dynamics During Signal Transduction. J. Biol. Chem. 2011, 286, 6650-6658.

19. Krishnamoorthy, L.K.; Mahal, L.K., Lectin Microarrays: Simple Tools for the Analysis of Complex Glycans, chapter in Functional and Structural Proteomics of Glycoproteins, eds. Owens, R.J; Nettleship, J.E., 2011, Springer Verlag.

20. Propheter, D.C.; Mahal, L.K. Orientation of GST-tagged lectins via in situ surface modification to create an expanded lectin microarray for glycomic analysis. Mol. Biosystems 2011, 7, 2114-7.

21. Rakus, J.F.; Mahal, L.K. New Technologies for Glycomic Analysis: Toward a Systematic Understanding of the Glycome. Ann. Rev. Anal. Chem. 2011, 4, 367-92.

22. Propheter, D.C.; Hsu, K.-L.; Mahal, L.K. Recombinant lectin microarrays for glycomic analysis. Methods Mol. Biol. 2011, 723, 67-77.

23. Gaziel-Sovran, A; Segura, M.F.; Di Micco, R; Collins, M.K.; Hanniford, D.; Vega-Saenz de Miera, E.; Rakus, J.F.; Dankert, J.F.; Shang, S.; Kerbel, R.S.; Bhardwaju, N.; Yongzhao, S.; Darvishan, F.; Zavadil, J.; Erlebacher, A.; Mahal, L.K.; Osman, I.; Hernando, E. MiR-30b/30d regulation of GalNAc transferases enhances invasion and immunosuppression during metastasis. Cancer Cell 2011, 20, 104-18.

24. Batista, B.S.; Eng, W.S.; Pilobello, K.T.; Hendricks-Munoz, K.; Mahal, L.K. Identification of a Conserved Glycan SIgnature for Microvesicles, J. Proteome Res. 2011, in press.

25. Bird-Lieberman, E.L.; Neves, A.A.; Lao-Sirieix, P.; O’Donovan, M.; Novelli, M.; Lovat, L.B.; Eng, W.S.; Mahal, L.K.; Brindle, K.M.; Fitzgerald, R.C. Molecular imaging using fluorescent lectins permits rapid endoscopic identification of dysplasia in Barrett’s esophagus. Nat. Medicine 2011 in press.