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Showing 25 course outlines from 4473 matches

376

BIOSCI 752

: Plant Genomics and Biotechnology
2023 Semester One (1233)
How genomics and gene transfer technologies could be used to achieve improved plant growth and to develop food with new traits. Includes: plant genomics methods, engineering fruit colour, control of fruit ripening and texture, biotechnology project design. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
377

BIOSCI 752

: Plant Genomics and Biotechnology
2022 Semester One (1223)
How genomics and gene transfer technologies could be used to achieve improved plant growth and to develop food with new traits. Includes: plant genomics methods, engineering fruit colour, control of fruit ripening and texture, biotechnology project design. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
378

BIOSCI 752

: Plant Genomics and Biotechnology
2021 Semester One (1213)
How genomics and gene transfer technologies could be used to achieve improved plant growth and to develop food with new traits. Includes: plant genomics methods, engineering fruit colour, control of fruit ripening and texture, biotechnology project design. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
379

BIOSCI 752

: Plant Genomics and Biotechnology
2020 Semester One (1203)
How genomics and gene transfer technologies could be used to achieve improved plant growth and to develop food with new traits. Includes: plant genomics methods, engineering fruit colour, control of fruit ripening and texture, biotechnology project design. A sound understanding of BIOSCI 354 or BIOSCI 340 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
380

BIOSCI 754

: Plant Genomes and Gene Expression
2025 Semester Two (1255)
The analysis of plant genomes and regulation of gene expression in plant biology. Includes: inferences from whole plant genome sequences, genetic control of nitrogen fixation, uptake and use, flowering time, hormone signalling pathways, sugar metabolism and its regulation. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
381

BIOSCI 754

: Plant Genomes and Gene Expression
2024 Semester Two (1245)
The analysis of plant genomes and regulation of gene expression in plant biology. Includes: inferences from whole plant genome sequences, genetic control of nitrogen fixation, uptake and use, flowering time, hormone signalling pathways, sugar metabolism and its regulation. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
382

BIOSCI 754

: Plant Genomes and Gene Expression
2022 Semester Two (1225)
The analysis of plant genomes and regulation of gene expression in plant biology. Includes: inferences from whole plant genome sequences, genetic control of nitrogen fixation, uptake and use, flowering time, hormone signalling pathways, sugar metabolism and its regulation. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
383

BIOSCI 754

: Plant Genomes and Gene Expression
2021 Semester Two (1215)
The analysis of plant genomes and regulation of gene expression in plant biology. Includes: inferences from whole plant genome sequences, genetic control of nitrogen fixation, uptake and use, flowering time, hormone signalling pathways, sugar metabolism and its regulation. A sound understanding of BIOSCI 354 or 340 or 326 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
384

BIOSCI 754

: Plant Genomes and Gene Expression
2020 Semester Two (1205)
The analysis of plant genomes and regulation of gene expression in plant biology. Includes: inferences from whole plant genome sequences, transcription factors, transcriptional control of flowering time and post-translational control of hormone receptors by ubiquitination and degradation. A sound understanding of BIOSCI 354 or 340 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
385

BIOSCI 755

: Genomics and Gene Expression
2025 Semester One (1253)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
386

BIOSCI 755

: Genomics and Gene Expression
2024 Semester One (1243)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
387

BIOSCI 755

: Genomics and Gene Expression
2023 Semester One (1233)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
388

BIOSCI 755

: Genomics and Gene Expression
2022 Semester One (1223)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
389

BIOSCI 755

: Genomics and Gene Expression
2021 Semester One (1213)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
390

BIOSCI 755

: Genomics and Gene Expression
2020 Semester One (1203)
The analysis of genomes and gene expression as a means of understanding biological processes. Aspects of functional and chemical genomics will be presented, as well as gene expression profiling using microarray technology. In terms of the latter, features of experimental design and data analysis will be discussed in the context of disease and developmental processes. A sound understanding of BIOSCI 351 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
391

BIOSCI 757

: Molecular Form, Function and Design
2025 Semester One (1253)
Biological systems highlight a complex interplay of thousands of molecules. Reviews fundamental studies focusing on molecular structure and function (structural biology), and designer molecules with applications in nanotechnology and biomedicine. Topics may include: enzyme evolution and engineering, protein design and assembly, rational drug and vaccine discovery, and protein structure and dynamics.
Subject: Biological Sciences
No pre-requisites or restrictions
392

BIOSCI 757

: Molecular Form, Function and Design
2024 Semester One (1243)
Biological systems highlight a complex interplay of thousands of molecules. Reviews fundamental studies focusing on molecular structure and function (structural biology), and designer molecules with applications in nanotechnology and biomedicine. Topics may include: enzyme evolution and engineering, protein design and assembly, rational drug and vaccine discovery, and protein structure and dynamics.
Subject: Biological Sciences
No pre-requisites or restrictions
393

BIOSCI 757

: Molecular Form, Function and Design
2023 Semester One (1233)
Biological systems highlight a complex interplay of thousands of molecules. Reviews fundamental studies focusing on molecular structure and function (structural biology), and designer molecules with applications in nanotechnology and biomedicine. Topics may include: enzyme evolution and engineering, protein design and assembly, rational drug and vaccine discovery, and protein structure and dynamics.
Subject: Biological Sciences
No pre-requisites or restrictions
394

BIOSCI 757

: Molecular Form, Function and Design
2022 Semester One (1223)
Biological systems highlight a complex interplay of thousands of molecules. Reviews fundamental studies focusing on molecular structure and function (structural biology), and designer molecules with applications in nanotechnology and biomedicine. Topics may include: enzyme evolution and engineering, protein design and assembly, rational drug and vaccine discovery, and protein structure and dynamics.
Subject: Biological Sciences
No pre-requisites or restrictions
395

BIOSCI 757

: Structural Biology
2021 Semester Two (1215)
Reviews recent studies of biological systems that highlight molecular structure, and its ability to explain cellular biology. Topics may include: protein folding and targeting in the cell, motor proteins, pathogen and immune system molecules, and the inference of protein structure and function from genomic data. A sound understanding of BIOSCI 350 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
396

BIOSCI 757

: Structural Biology
2020 Semester Two (1205)
Reviews recent studies of biological systems that highlight molecular structure, and its ability to explain cellular biology. Topics may include: protein folding and targeting in the cell, motor proteins, pathogen and immune system molecules, and the inference of protein structure and function from genomic data. A sound understanding of BIOSCI 350 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
397

BIOSCI 758

: Development, Differentiation and Disease
2023 Semester Two (1235)
A critical analysis of normal and perturbed gene expression in selected model organisms as a means of understanding biological pathways and disease processes. Includes the development and use of transgenic organisms as models for human disease. A sound understanding of BIOSCI 356 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
398

BIOSCI 758

: Development, Differentiation and Disease
2022 Semester Two (1225)
A critical analysis of normal and perturbed gene expression in selected model organisms as a means of understanding biological pathways and disease processes. Includes the development and use of transgenic organisms as models for human disease. A sound understanding of BIOSCI 356 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
399

BIOSCI 758

: Development, Differentiation and Disease
2021 Semester Two (1215)
A critical analysis of normal and perturbed gene expression in selected model organisms as a means of understanding biological pathways and disease processes. Includes the development and use of transgenic organisms as models for human disease. A sound understanding of BIOSCI 356 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions
400

BIOSCI 758

: Development, Differentiation and Disease
2020 Semester Two (1205)
A critical analysis of normal and perturbed gene expression in selected model organisms as a means of understanding biological pathways and disease processes. Includes the development and use of transgenic organisms as models for human disease. A sound understanding of BIOSCI 356 or equivalent is assumed.
Subject: Biological Sciences
No pre-requisites or restrictions