صورة الغلاف المحلية
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Visualization and modeling of the virological structure / Nora Abdelhameed Mohamed ; Supervised Amr A. Badr , Ahmed Farouk Alsadek , Mohamed Nassef

بواسطة: المساهم: نوع المادة : نصاللغة: الإنجليزية تفاصيل النشر: Cairo : Nora Abdelhameed Mohamed , 2020الوصف: 66 Leaves : charts , facsimiles ; 30cmعنوان آخر:
  • تصور ووضع نماذج للهيكل الفيروسى [عنوان مضاف عنوان الصفحة]
الموضوع: موارد على الإنترنت: Available additional physical forms:
  • Issued also as CD
ملاحظة الأطروحة: Thesis (M.Sc.) - Cairo University - Faculty of Computers and Artificial Intelligence - Department of Computer Science ملخص: Assembly of capsid virus is a crucial step in virus life cycle. Without this step, virus would not replicate itself to hijack other cells and its life cycle would end. Many researchers studied virus structural shape and its dynamics to understand the behavior of virus. A small virus capsid contains identical asymmetric units that are packed in regular manner. Every icosahedral virus has two types of symmetry, regular symmetry and noncrystallographic symmetry. One asymmetric unit and some rotation matrices are needed to form the whole capsid. These rotation matrices define the location of adjacent asymmetric unit.This thesis focuses on the structural shape of Icosahedral viruses and prediction of symmetries in their capsids.Two approaches are carried out to study the construction of a crystal asymmetric unit. The first approach predicts the full rotation matrix (4x4 matrix). The second approach predicts the rotation angles and translation vector. In each approach, we are applying convolution neural network (CNN) and fully connected neural network (FNN). Spatial geometry and biological characteristics were collected for each icosahedral capsid virus from the Protein Data Bank (PDB). Using visualization technique, the results were promising; as in the approach that predicts angles, FNN model accuracy reached 89% and reached 84% in CNN model in the same approach. While the second approach had a lower accuracy percentage; as it reached 67% in FNN model and 45% in CNN model. FNN models in general gave better performance in accuracy and 0.25% less in time and 0.90% less memory consumption than CNN models
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المقتنيات
نوع المادة المكتبة الحالية المكتبة الرئيسية رقم الاستدعاء رقم النسخة حالة الباركود
Thesis قاعة الرسائل الجامعية - الدور الاول المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.20.03.M.Sc.2020.No.V (استعراض الرف(يفتح أدناه)) لا تعار 01010110081119000
CD - Rom مخـــزن الرســائل الجـــامعية - البدروم المكتبة المركزبة الجديدة - جامعة القاهرة Cai01.20.03.M.Sc.2020.No.V (استعراض الرف(يفتح أدناه)) 81119.CD لا تعار 01020110081119000

Thesis (M.Sc.) - Cairo University - Faculty of Computers and Artificial Intelligence - Department of Computer Science

Assembly of capsid virus is a crucial step in virus life cycle. Without this step, virus would not replicate itself to hijack other cells and its life cycle would end. Many researchers studied virus structural shape and its dynamics to understand the behavior of virus. A small virus capsid contains identical asymmetric units that are packed in regular manner. Every icosahedral virus has two types of symmetry, regular symmetry and noncrystallographic symmetry. One asymmetric unit and some rotation matrices are needed to form the whole capsid. These rotation matrices define the location of adjacent asymmetric unit.This thesis focuses on the structural shape of Icosahedral viruses and prediction of symmetries in their capsids.Two approaches are carried out to study the construction of a crystal asymmetric unit. The first approach predicts the full rotation matrix (4x4 matrix). The second approach predicts the rotation angles and translation vector. In each approach, we are applying convolution neural network (CNN) and fully connected neural network (FNN). Spatial geometry and biological characteristics were collected for each icosahedral capsid virus from the Protein Data Bank (PDB). Using visualization technique, the results were promising; as in the approach that predicts angles, FNN model accuracy reached 89% and reached 84% in CNN model in the same approach. While the second approach had a lower accuracy percentage; as it reached 67% in FNN model and 45% in CNN model. FNN models in general gave better performance in accuracy and 0.25% less in time and 0.90% less memory consumption than CNN models

Issued also as CD

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