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IN SILICO STUDY OF THE KRAS PROTEIN: EVALUATION OF THE EFFECTS OF POINT MUTATION ,THEIR RELATIONSHIP TO RESPONSE AND EXPLORATION OF NON-TOXIC INHIBITOR / HOSROM NADIA AHMED NASSER

Public ISBD Titre : IN SILICO STUDY OF THE KRAS PROTEIN: EVALUATION OF THE EFFECTS OF POINT MUTATION ,THEIR RELATIONSHIP TO RESPONSE AND EXPLORATION OF NON-TOXIC INHIBITOR Type de document : thèse Auteurs : HOSROM NADIA AHMED NASSER, Auteur Année de publication : 2023 Langues : Anglais (eng) Mots-clés : KRAS  KRAS mutation  KRAS inhibitor  virtual screening  Docking  طفرة kRAS  مثبط kRAS  فحص افتراضي  رسو  mutation kRAS  inhibiteur kRAS  criblage virtuel  Docking Résumé : MAPK families play a big part in complicated cellular processes like growth, development, change, and death (apoptosis). The Ras/Raf/MAPK (MEK) pathway is the most critical signaling cascade among the MAPK signal transduction pathways, and it plays an essential role in the continued existence and progression of tumor cells. The formation of malignant tumors has been found to be most frequently related to mutations in the RAS protein family. Mutations in the KRAS protein cause cell division to happen too quickly, which helps tumors grow. Stopping KRAS mutations would stop too many cells from dividing, which would stop the growth of tumors. Inhibiting the KRAS mutant protein has been looked at as a possible cancer treatment to stop KRAS from changing again. The goal of this research is to find new possible KRAS inhibitors by using virtual screening and docking, as well as to predict, in silico, how the stability and flexibility of mutations will affect the way the protein works. In our research, 36 mutations that cause cancer are studied in order to predict their effects on the stability, flexibility, and function of the protein. In addition, 224 different compounds that have an inhibitory impact on KRAS were chosen from the binding database. Six compounds are used in docking. This is done after toxicity and the Lipinski and Veber rules have been looked at. The results were compared to inhibitors used as a reference, such as 0375-0604 and sotorasib (AMG510), and according to that, we see that the BDBM29608 inhibitor has the best affinity for most mutations. Numéro (Thèse ou Mémoire) : MM0252023 Président : Mouna Ouadghiri Directeur : Ilham Kandoussi Juge : Rachid ElJaoudi Juge : Bentayebi Kaoutar IN SILICO STUDY OF THE KRAS PROTEIN: EVALUATION OF THE EFFECTS OF POINT MUTATION ,THEIR RELATIONSHIP TO RESPONSE AND EXPLORATION OF NON-TOXIC INHIBITOR [thèse] / HOSROM NADIA AHMED NASSER, Auteur . - 2023. Langues : Anglais (eng) Mots-clés : KRAS  KRAS mutation  KRAS inhibitor  virtual screening  Docking  طفرة kRAS  مثبط kRAS  فحص افتراضي  رسو  mutation kRAS  inhibiteur kRAS  criblage virtuel  Docking Résumé : MAPK families play a big part in complicated cellular processes like growth, development, change, and death (apoptosis). The Ras/Raf/MAPK (MEK) pathway is the most critical signaling cascade among the MAPK signal transduction pathways, and it plays an essential role in the continued existence and progression of tumor cells. The formation of malignant tumors has been found to be most frequently related to mutations in the RAS protein family. Mutations in the KRAS protein cause cell division to happen too quickly, which helps tumors grow. Stopping KRAS mutations would stop too many cells from dividing, which would stop the growth of tumors. Inhibiting the KRAS mutant protein has been looked at as a possible cancer treatment to stop KRAS from changing again. The goal of this research is to find new possible KRAS inhibitors by using virtual screening and docking, as well as to predict, in silico, how the stability and flexibility of mutations will affect the way the protein works. In our research, 36 mutations that cause cancer are studied in order to predict their effects on the stability, flexibility, and function of the protein. In addition, 224 different compounds that have an inhibitory impact on KRAS were chosen from the binding database. Six compounds are used in docking. This is done after toxicity and the Lipinski and Veber rules have been looked at. The results were compared to inhibitors used as a reference, such as 0375-0604 and sotorasib (AMG510), and according to that, we see that the BDBM29608 inhibitor has the best affinity for most mutations. Numéro (Thèse ou Mémoire) : MM0252023 Président : Mouna Ouadghiri Directeur : Ilham Kandoussi Juge : Rachid ElJaoudi Juge : Bentayebi Kaoutar

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Code barre	Cote	Support	Localisation	Section	Disponibilité
MM0252023	WA	Thèse imprimé	Unité des Thèses et Mémoires	Mémoires de Masters	Disponible