国际学生入学条件
Applicants must have completed or are nearing the completion of a Master of Science degree. Applicants must have distinguished themselves during their M.Sc. to be considered for our Ph.D. program. Applicants who have never been enrolled in an M.Sc. program but have an average of A- or higher in all relevant courses from their B.Sc. may be consideration for direct entry into our Ph.D. program. IELTS: Minimum required score: 7.0 (Academic)with at least 6.5 for each component.TOEFL paper-based Test(Pbt) Overall Score: 580 and Internet-based format (IBT) Overall Score: 93.
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IDP—雅思考试联合主办方
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雅思考试总分
7.0
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雅思考试指南
- 雅思总分:7
- 托福网考总分:93
- 托福笔试总分:580
- 其他语言考试:The Certificate of Proficiency in English (COPE) Required score: 76 (with at least 22 in each component and 32 in the writing component).
CRICOS代码:
申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
分子遗传学系由医学大楼管理,有近100名教职员工,其实验室位于医学大楼,最佳研究所,唐纳利细胞和生物分子研究中心,菲茨杰拉德大楼,病童医院,西奈山医院,安大略省癌症研究所和玛格丽特公主医院。分子遗传学的理学硕士和哲学博士课程为从细菌,病毒到人类的广泛遗传系统提供研究培训。研究项目包括DNA修复,重组和分离,转录,RNA剪接和催化,基因表达调控,信号转导,宿主细胞与细菌和病毒的相互作用,简单生物(蠕虫和果蝇)以及复杂生物的发育遗传学(小鼠),分子神经生物学,分子免疫学,癌症生物学和病毒学,结构生物学以及人类
MoGen research in the area of Functional Genomics and Proteomics uses technologically advanced methods to comprehensively understand how the information encoded in genes and proteins ultimately functions in an organism. We aim to systematically explore the basic cellular processes underpinning growth and development, and to identify changes that cause disease. <br><br>Genomics and proteomics are two of the newest biological disciplines, and research in these areas has been driven by the application of technology to biology. Two important technologies driving these disciplines are DNA sequencing and mass spectrometry. New technologies for DNA sequencing were created as part of the global effort to sequence the human genome, completed in 2001. In the years since then, major advances in DNA sequencing now make it possible to obtain the entire DNA sequence of any individual and to determine all of the RNAs present in a cell. Mass spectrometry is a method for determining the quantity and identity of molecules, and can be used to measure molecules ranging from cholesterol and chemotherapy drugs to cellular proteins. Mass spectrometry has been particularly useful in characterizing which proteins are expressed in particular cells, and this information is a powerful complement to quantitative data from DNA and RNA sequencing. The results from these methods and from other large-scale, often robotically assisted, approaches are analyzed using increasingly sophisticated computational methods.
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