Stephen Mackessy
Affiliations: | University of Northern Colorado, Greeley, CO, United States |
Area:
Zoology Biology, Molecular Biology, BiochemistryGoogle:
"Stephen Mackessy"Mean distance: (not calculated yet)
Parents
Sign in to add mentor| Kenneth V. Kardong | grad student | 1989 | WSU (Biomechanics Tree) | |
| (Ph.D. Dissertation: Venoms as trophic adaptations: An ultrastructural investigation of the venom apparatus and biochemical characterization of the proteolytic enzymes of the northern Pacific rattlesnake Crotalus viridis oreganus) | ||||
Children
Sign in to add trainee| Robert E. Hill | grad student | 1997 | University of Northern Colorado |
| William H. Heyborne | grad student | 2007 | University of Northern Colorado |
| Christopher J. Rex | grad student | 2013 | University of Northern Colorado |
| Anthony Saviola | grad student | 2015 | University of Northern Colorado (Cell Biology Tree) |
| Cassandra Modahl | grad student | 2016 | University of Northern Colorado (Cell Biology Tree) |
| Graham Dawson | grad student | 2018 | University of Northern Colorado |
| Emily Grabowsky | grad student | 2018 | University of Northern Colorado |
| Thomas M. McCabe | grad student | 2018 | University of Northern Colorado |
| Ann-Elizabeth Nash | grad student | 2019 | University of Northern Colorado |
| Neil R. Balchan | grad student | 2021 | University of Northern Colorado |
| Cara Smith | grad student | 2021 | University of Northern Colorado |
BETA: Related publications
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Publications
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| Gopalan SS, Perry BW, Francioli YZ, et al. (2024) Diverse gene regulatory mechanisms alter rattlesnake venom gene expression at fine evolutionary scales. Genome Biology and Evolution |
| Smith CF, Modahl CM, Ceja-Galindo D, et al. (2024) ASSESSING TARGET SPECIFICITY OF THE SMALL MOLECULE INHIBITOR MARIMASTAT TO SNAKE VENOM TOXINS: A NOVEL APPLICATION OF THERMAL PROTEOME PROFILING. Molecular & Cellular Proteomics : McP. 100779 |
| Modahl CM, Han SX, van Thiel J, et al. (2024) Distinct regulatory networks control toxin gene expression in elapid and viperid snakes. Bmc Genomics. 25: 186 |
| Smith CF, Brandehoff NP, Pepin L, et al. (2023) Feasibility of detecting snake envenomation biomarkers from dried blood spots. Analytical Science Advances. 4: 26-36 |
| Smith CF, Nikolakis ZL, Perry BW, et al. (2023) The best of both worlds? Rattlesnake hybrid zones generate complex combinations of divergent venom phenotypes that retain high toxicity. Biochimie |
| Westfall AK, Gopalan SS, Perry BW, et al. (2023) Single-cell heterogeneity in snake venom expression is hardwired by co-option of regulators from progressively activated pathways. Genome Biology and Evolution |
| Smith CF, Nikolakis ZL, Ivey K, et al. (2023) Snakes on a plain: biotic and abiotic factors determine venom compositional variation in a wide-ranging generalist rattlesnake. Bmc Biology. 21: 136 |
| Grabowsky ER, Saviola AJ, Alvarado-Díaz J, et al. (2023) Montane Rattlesnakes in México: Venoms of and Related Species within the Group. Toxins. 15 |
| Modahl CM, Saviola AJ, Mackessy SP. (2021) Integration of transcriptomic and proteomic approaches for snake venom profiling. Expert Review of Proteomics. 18: 827-834 |
| Heyborne WH, Mackessy SP. (2020) Venoms of New World Vinesnakes (Oxybelis aeneus and O. fulgidus). Toxicon : Official Journal of the International Society On Toxinology. 190: 22-30 |