His primary areas of investigation include Biochemistry, Venom, Phospholipase A2, Enzyme and Molecular biology. His work on Biochemistry deals in particular with Peptide sequence, Phospholipase A, Kunitz STI protease inhibitor, Trypsin and Amino acid. His Phospholipase A research includes themes of Neuromuscular transmission and Bothrops.
His research in Venom intersects with topics in Neurotoxicity, Anatomy and Gene isoform. Sergio Marangoni has researched Phospholipase A2 in several fields, including Phospholipase, Snake venom and Pharmacology, Histamine. His research investigates the connection between Snake venom and topics such as Methionine that intersect with issues in Jararacussu.
Sergio Marangoni mainly focuses on Biochemistry, Venom, Snake venom, Phospholipase A2 and Peptide sequence. His study in Molecular mass, Enzyme, Amino acid, Trypsin and Trypsin inhibitor is carried out as part of his Biochemistry studies. His Venom study integrates concerns from other disciplines, such as Pharmacology and Neuromuscular transmission.
His research integrates issues of Endocrinology, Neuromuscular Blockade, Molecular biology, Internal medicine and Cytotoxicity in his study of Snake venom. The Phospholipase A2 study combines topics in areas such as Phospholipase and Toxin. His Peptide sequence research is multidisciplinary, incorporating elements of Biological activity and Peptide.
Sergio Marangoni spends much of his time researching Biochemistry, Snake venom, Venom, Phospholipase A2 and Enzyme. Molecular mass, Trypsin, Trypsin inhibitor, Phospholipase and Amino acid are the core of his Biochemistry study. He works mostly in the field of Molecular mass, limiting it down to topics relating to Chromatography and, in certain cases, Kunitz STI protease inhibitor and Proteases, as a part of the same area of interest.
His study in Snake venom is interdisciplinary in nature, drawing from both Peptide sequence, Phospholipase A and Envenomation. His Venom research is multidisciplinary, relying on both Pharmacology and Neuromuscular transmission. Sergio Marangoni has included themes like Toxin and Agkistrodon in his Phospholipase A2 study.
His scientific interests lie mostly in Biochemistry, Snake venom, Venom, Trypsin and Myotoxin. His Molecular mass and Enzyme study are his primary interests in Biochemistry. His studies in Snake venom integrate themes in fields like Crotalus, Phospholipase A, Biological activity, Computational biology and Peptide.
His work in Venom is not limited to one particular discipline; it also encompasses Pharmacology. In his research on the topic of Trypsin, Food science, Bioassay, Protein digestion and Lepidoptera genitalia is strongly related with PEST analysis. The subject of his Myotoxin research is within the realm of Phospholipase A2.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
HSP72 as a complementary protection against oxidative stress induced by exercise in the soleus muscle of rats.
Marcus B. Smolka;Claudio C. Zoppi;Armindo A. Alves;Leonardo R. Silveira.
American Journal of Physiology-regulatory Integrative and Comparative Physiology (2000)
Bothropstoxin-I: amino acid sequence and function.
A. C. O. Cintra;S. Marangoni;B. Oliveira;J. R. Giglio.
Journal of Protein Chemistry (1993)
Toxins and genes isolated from scorpions of the genus Tityus.
Baltazar Becerril;Sergio Marangoni;Lourival D. Possani.
Proteomic analysis of dorsolateral prefrontal cortex indicates the involvement of cytoskeleton, oligodendrocyte, energy metabolism and new potential markers in schizophrenia.
Daniel Martins-de-Souza;Wagner F. Gattaz;Andrea Schmitt;Giuseppina Maccarrone.
Journal of Psychiatric Research (2009)
Proteome analysis of schizophrenia patients Wernicke's area reveals an energy metabolism dysregulation
Daniel Martins-de-Souza;Daniel Martins-de-Souza;Daniel Martins-de-Souza;Wagner F Gattaz;Andrea Schmitt;José C Novello.
BMC Psychiatry (2009)
Alterations in oligodendrocyte proteins, calcium homeostasis and new potential markers in schizophrenia anterior temporal lobe are revealed by shotgun proteome analysis
Daniel Martins-de-Souza;Daniel Martins-de-Souza;Daniel Martins-de-Souza;Wagner F. Gattaz;Andrea Schmitt;Christiane Rewerts.
Journal of Neural Transmission (2009)
A trypsin inhibitor from Peltophorum dubium seeds active against pest proteases and its effect on the survival of Anagasta kuehniella (Lepidoptera: Pyralidae)
Maria Lı́gia Rodrigues Macedo;Maria Lı́gia Rodrigues Macedo;Maria das Graças Machado Freire;Elaine Cristina Cabrini;Marcos H Toyama.
Biochimica et Biophysica Acta (2003)
Structural and functional characterization of myotoxin I, a Lys49 phospholipase A(2) homologue from Bothrops moojeni (Caissaca) snake venom.
Andreimar M Soares;Andreimar M Soares;Sı́lvia H Andrião-Escarso;Yamileth Angulo;Bruno Lomonte.
Archives of Biochemistry and Biophysics (2000)
Mast cell degranulation induced by two phospholipase A2 homologues: dissociation between enzymatic and biological activities.
Elen C.T Landucci;Rogerio C Castro;Maristela F Pereira;Adelia C.O Cintra.
European Journal of Pharmacology (1998)
Purification and characterization of a new trypsin inhibitor from Dimorphandra mollis seeds.
Gláucia C. Mello;Maria Luiza V. Oliva;Joana T. Sumikawa;Olga L. T. Machado.
Journal of Protein Chemistry (2001)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: