|
|
This module is an essential component of the Chemistry and Medicinal Chemistry programmes at Keele and covers the theory and applications of spectroscopic techniques including Nuclear Magnetic Resonance, X-ray Diffraction, Mass Spectrometry, UV-visible and Vibrational Spectroscopy. The theory of each technique is explored in detail, and then the use of spectroscopic techniques to investigate inorganic and organic compounds is carried out via laboratory work and data handling exercises. In addition, the range of learning activities is designed to continue progress towards the development of Keele's Graduate Attributes with an emphasis on high standards of written communication, and information literacy. |
| Semester 2 |
C/O |
TYP |
ECTS | CATS |
|
~
|
CHE-20005 |
Drug Design Based on biological Targets |
C |
M
|
7.5 |
15 |
|
|
This is a core module for the medicinal chemistry degree programme at Keele and it develops and exemplifies the principles and methods that relate chemical structure to in vivo transport and biological activity of molecules. Topics covered include structure and function of the cell, basic biochemical processes, cellular building blocks, metabolism and biosynthesis, pharmacodynamics and pharmacokinetics, drug transport illustrated by prodrugs, substituent effects and structure-activity relationships, non-covalent forces and their role in enzyme and receptor binding, receptor classification and dose-response curves. Using these principles, drug design and mechanism of action are illustrated by modern examples of rational drug discovery. The course is taught through lectures, laboratory practicals and problem classes. |
|
~
|
CHE-20006 |
Biophysical Chemistry |
C |
M
|
7.5 |
15 |
|
|
This is a core module for all medicinal chemistry degree programmes at Keele and covers selected topics in biophysical chemistry. These include properties of electrolyte solutions, enzyme kinetics and biomolecular structure and characterization, which are taught through lectures, laboratory practicals and problem classes. In addition, the range of learning activities is designed to further progress development of Keele's Graduate Attributes with an emphasis on high standards of record-keeping, written and oral communication, information literacy, presentation and numeracy. |
|
|
CHE-20024 |
Medicinal Chemistry - Study Abroad III |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
|
|
CHE-20025 |
Medicinal Chemistry - Study Abroad IV |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
| Semester 1 |
C/O |
TYP |
ECTS | CATS |
|
#
|
CHE-30006 |
Synthesis, Kinetics and Mechanism |
C |
M
|
7.5 |
15 |
|
|
This module is wide-ranging in its investigation of organic and inorganic reactions at different levels of detail and from various perspectives. By the end of the module you will be familiar with new concepts, reactions, ideas, terminology and methods of data analysis and interpretation, and you will be required to draw upon and integrate core chemical principles (in physical, organic and inorganic chemistry) learned during the 1st and 2nd year of the course in order to explain some of the fascinating chemistry you will encounter. You will also study original research papers that apply some of the topics covered in the module. |
|
+
#
|
CHE-30031 |
Biologically Important Molecules |
C |
M
|
7.5 |
15 |
|
|
|
|
#
|
LSC-30016 |
Structural Biology & Macromolecular Function |
O |
M
|
7.5 |
15 |
|
|
Advances in biotechnology, biology and biomedicine, and their impact on the quality of life, the economy, medicine and health care increasingly depend on the application of structural biology which provides detailed three-dimensional structural information at the atomic level of the proteins which are central to all life processes. While structural biology includes a variety of different techniques such as crystallography and electron microscopy, this module concentrates on the outcomes of these techniques rather than the techniques themselves, with in-depth analysis of how proteins, enzymes and viruses recognise and bind their targets, and how detailed structural information is used to intervene in or enhance these processes. An important aspect of health and well being in all forms of life is the ability to prevent, resist, fight and recover from infection and disease, and much of the course concentrates on how an increased understanding of the molecular mechanisms involved provides a unique opportunity for the design of potential diagnostic and therapeutic agents and strategies. |
|
#
|
LSC-30016 |
Structural Biology & Macromolecular Function |
EP |
M
|
7.5 |
15 |
|
|
Advances in biotechnology, biology and biomedicine, and their impact on the quality of life, the economy, medicine and health care increasingly depend on the application of structural biology which provides detailed three-dimensional structural information at the atomic level of the proteins which are central to all life processes. While structural biology includes a variety of different techniques such as crystallography and electron microscopy, this module concentrates on the outcomes of these techniques rather than the techniques themselves, with in-depth analysis of how proteins, enzymes and viruses recognise and bind their targets, and how detailed structural information is used to intervene in or enhance these processes. An important aspect of health and well being in all forms of life is the ability to prevent, resist, fight and recover from infection and disease, and much of the course concentrates on how an increased understanding of the molecular mechanisms involved provides a unique opportunity for the design of potential diagnostic and therapeutic agents and strategies. |
| Semester 1-2 |
C/O |
TYP |
ECTS | CATS |
|
+
#
|
CHE-30030 |
Single Honours Research Project - ISP |
C |
C
|
15 |
30 |
|
|
|
|
|
CHE-30032 |
Advanced Chemical Analysis |
C |
M
|
7.5 |
15 |
|
|
This module equips students with hands-on experience and an in-depth knowledge of a wide range of modern instrument-based analytical techniques and procedures and the skills to apply this knowledge to solve problems and characterise the structures of unknown chemicals and materials. |
| Semester 2 |
C/O |
TYP |
ECTS | CATS |
|
#
|
CHE-30009 |
Research Topics in Biological and Medicinal Chemistry |
C |
M
|
7.5 |
15 |
|
|
This module examines wide-ranging topics that are of significant importance to research in Biological and Medicinal Chemistry. The topics covered are drawn from the research interests and expertise of academic staff and include topics such drug discovery, chemotherapy, bioorganic chemistry and metabolism, natural product chemistry, advanced synthetic organic reactions and the appropriate reactions mechanisms. You will become familiar with detailed aspects of contemporary research and will be able to integrate the topics with the concepts that you have previously studied during your course. You will also produce a critique of a peer-reviewed research paper involving the use of online databases. |
|
#
|
LSC-30018 |
Biochemistry and Therapy of Disease |
O |
M
|
7.5 |
15 |
|
|
This module is intended to describe and promote understanding of the
molecular basis of therapeutic intervention in a range of diseases,
including bacterial, neurodegenerative, parasitic and neoplastic
pathologies. It will also address the questions arising from the failure of
disease therapies and describe the molecular events underlying
resistance to therapy.
2 lectures |
|
#
|
LSC-30018 |
Biochemistry and Therapy of Disease |
EP |
M
|
7.5 |
15 |
|
|
This module is intended to describe and promote understanding of the
molecular basis of therapeutic intervention in a range of diseases,
including bacterial, neurodegenerative, parasitic and neoplastic
pathologies. It will also address the questions arising from the failure of
disease therapies and describe the molecular events underlying
resistance to therapy.
2 lectures |
Medicinal Chemistry Minor - Level 1 Modules
| Semester 1 |
C/O |
TYP |
ECTS | CATS |
|
|
CHE-10047 |
Chemical Concepts and Structure |
C |
M
|
7.5 |
15 |
|
|
This module introduces the key chemical principles, models and vocabulary that underpin our understanding of atomic and molecular properties, structure, chemical bonding and reactions. The range of learning activities is designed to initiate progress towards the development of Keele's Graduate Attributes with an emphasis on development of information literacy and independent study skills. |
|
|
CHE-10048 |
Practical and Professional Chemistry Skills I |
C |
M
|
7.5 |
15 |
|
|
This module is designed to provide rigorous training in practical and professional chemistry skills that are necessary for laboratory classes throughout the course. The range of learning activities and assessments are designed to initiate progress towards the development of Keele's Graduate Attributes with emphasis on communication (oral and written), information literacy and professionalism. |
| Semester 2 |
C/O |
TYP |
ECTS | CATS |
|
|
CHE-10049 |
Practical and Professional Chemistry Skills II |
C |
C
|
7.5 |
15 |
|
|
This module builds on skills developed in 'Practical and Professional Chemistry Skills I', and gives students further experience in essential laboratory and spectroscopic techniques. The range of learning activities and assessments are designed to initiate progress towards the development of Keele's Graduate Attributes with emphasis on problem solving, communication (oral and written) and collaborative work. |
|
|
CHE-10050 |
Chemical Properties and Reactions |
C |
M
|
7.5 |
15 |
|
|
This module further develops the key chemical principles, models and vocabulary that
underpin our understanding of chemical reactions and compounds. The range of learning activities is designed to initiate progress towards the development of Keele's Graduate Attributes with an emphasis on development of information literacy and independent study skills |
Medicinal Chemistry Minor - Level 2 Modules
| Semester 1 |
C/O |
TYP |
ECTS | CATS |
|
~
|
CHE-20001 |
Organic Synthesis and Chirality |
C |
M
|
7.5 |
15 |
|
|
This is a core module for all chemistry and medicinal chemistry degree programmes at Keele and covers key topics in organic chemistry which highlight how chemical processes can be used to synthesize complex organic molecules. Concepts including stereochemistry and isomerism, and synthetic methodology using functional group interconversion and retrosynthesis are taught in an integrated manner through lectures, laboratory practicals and problem classes. |
|
~
|
CHE-20002 |
Spectroscopic Methods |
C |
M
|
7.5 |
15 |
|
|
This module is an essential component of the Chemistry and Medicinal Chemistry programmes at Keele and covers the theory and applications of spectroscopic techniques including Nuclear Magnetic Resonance, X-ray Diffraction, Mass Spectrometry, UV-visible and Vibrational Spectroscopy. The theory of each technique is explored in detail, and then the use of spectroscopic techniques to investigate inorganic and organic compounds is carried out via laboratory work and data handling exercises. In addition, the range of learning activities is designed to continue progress towards the development of Keele's Graduate Attributes with an emphasis on high standards of written communication, and information literacy. |
|
|
CHE-20022 |
Medicinal Chemistry - Study Abroad I |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
|
|
CHE-20023 |
Medicinal Chemistry - Study Abroad II |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
| Semester 2 |
C/O |
TYP |
ECTS | CATS |
|
~
|
CHE-20005 |
Drug Design Based on biological Targets |
C |
M
|
7.5 |
15 |
|
|
This is a core module for the medicinal chemistry degree programme at Keele and it develops and exemplifies the principles and methods that relate chemical structure to in vivo transport and biological activity of molecules. Topics covered include structure and function of the cell, basic biochemical processes, cellular building blocks, metabolism and biosynthesis, pharmacodynamics and pharmacokinetics, drug transport illustrated by prodrugs, substituent effects and structure-activity relationships, non-covalent forces and their role in enzyme and receptor binding, receptor classification and dose-response curves. Using these principles, drug design and mechanism of action are illustrated by modern examples of rational drug discovery. The course is taught through lectures, laboratory practicals and problem classes. |
|
~
|
CHE-20006 |
Biophysical Chemistry |
C |
M
|
7.5 |
15 |
|
|
This is a core module for all medicinal chemistry degree programmes at Keele and covers selected topics in biophysical chemistry. These include properties of electrolyte solutions, enzyme kinetics and biomolecular structure and characterization, which are taught through lectures, laboratory practicals and problem classes. In addition, the range of learning activities is designed to further progress development of Keele's Graduate Attributes with an emphasis on high standards of record-keeping, written and oral communication, information literacy, presentation and numeracy. |
|
|
CHE-20024 |
Medicinal Chemistry - Study Abroad III |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
|
|
CHE-20025 |
Medicinal Chemistry - Study Abroad IV |
EP |
C
|
7.5 |
15 |
|
|
This is a module that is automatically allocated to the records our Keele level II students who are going to Study Abroad at a partner University for a semester of their second year and cannot be selected by any other level II students. |
Medicinal Chemistry Minor - Level 3 Modules
| Semester 1 |
C/O |
TYP |
ECTS | CATS |
|
#
|
CHE-30006 |
Synthesis, Kinetics and Mechanism |
EP |
M
|
7.5 |
15 |
|
|
This module is wide-ranging in its investigation of organic and inorganic reactions at different levels of detail and from various perspectives. By the end of the module you will be familiar with new concepts, reactions, ideas, terminology and methods of data analysis and interpretation, and you will be required to draw upon and integrate core chemical principles (in physical, organic and inorganic chemistry) learned during the 1st and 2nd year of the course in order to explain some of the fascinating chemistry you will encounter. You will also study original research papers that apply some of the topics covered in the module. |
|
+
#
|
CHE-30031 |
Biologically Important Molecules |
EP |
M
|
7.5 |
15 |
|
|
|
| Semester 2 |
C/O |
TYP |
ECTS | CATS |
|
#
|
CHE-30009 |
Research Topics in Biological and Medicinal Chemistry |
EP |
M
|
7.5 |
15 |
|
|
This module examines wide-ranging topics that are of significant importance to research in Biological and Medicinal Chemistry. The topics covered are drawn from the research interests and expertise of academic staff and include topics such drug discovery, chemotherapy, bioorganic chemistry and metabolism, natural product chemistry, advanced synthetic organic reactions and the appropriate reactions mechanisms. You will become familiar with detailed aspects of contemporary research and will be able to integrate the topics with the concepts that you have previously studied during your course. You will also produce a critique of a peer-reviewed research paper involving the use of online databases. |
