Molecular biologists study biological systems at the molecular level. In other words, they study life in its smallest forms. With its foundations in chemistry, physiology, genetics, physics, and biology, molecular biology focuses on the molecular control of cellular processes and the interactions between various cell systems. This specialized branch of biochemistry, which has expanded with the discovery of the structure of DNA, is changing the face of all areas of biological and biomedical science and has impacts in medicine, agriculture, and industry.

", "display_order": 1, "created_at": "2019-08-29T17:56:36.983007-07:00", "updated_at": "2021-11-18T13:55:37.597837-08:00"}, {"degree_id": 23, "page": 1, "title": "Program Options", "summary_markdown": "**Bachelor\u2019s Degree in Molecular Biology \u2013 Four Year Duration** \r\nThe Bachelor\u2019s Degree in Molecular Biology prepares students for entry-level and mid-level careers in cellular and molecular biology, or for advanced study in a master\u2019s program. \r\n\r\nThe undergrad curriculum focuses on the fundamental biological concepts at the molecular, cellular, organismal, and ecosystem levels. Students develop competence in general lab and field skills and learn to apply critical thinking skills and quantitative tools to evaluate biological information. \r\n\r\nHere is a sample of an undergraduate molecular biology program: \r\n\r\n**Core Courses** \r\n\r\n- Cell Biology with Lab \u2013 basic concepts of the structure, function, and reproduction of cells \r\n- Organismal Biology with Lab \u2013 biological diversity in plants and animals from an evolutionary perspective; relationships between form and function; relationships of organisms to their environments \r\n- Quantitative Biology with Lab \u2013 the application of mathematics and statistics to biology; computer applications lab \r\n- Genetics with Lab \u2013 modern molecular and classical principles underlying biological inheritance \r\n- Microbiology with Lab \u2013 concepts of basic and applied microbiology including bacteriology, virology, and immunology; microbiological lab techniques \r\n- Molecular Biology with Lab \u2013 molecular biology of the gene, gene structure and expression in eukaryotes (organisms whose cells have a nucleus enclosed within a nuclear envelope); techniques to study genomes, genes, and regulation of gene expression \r\n- Research Design \u2013 students will identify a problem, conduct a literature search on the topic using databases, design an experiment in a chosen area of the biological sciences, and learn how to present their findings in a research proposal \r\n- Research in Biology \u2013 an individual research project, to be accepted by the research advisor \r\n\r\nIn addition to this core curriculum, students also take a set of related requirements and electives. Here are some examples: \r\n\r\n- General Chemistry with Lab \r\n- Organic Chemistry with Lab \r\n- Biochemistry with Lab \r\n- General Physics with Lab \r\n- Pre-Calculus \r\n- Calculus \r\n- Neurobiology \r\n- Medical Microbiology \r\n- Cell Culture and Immunochemistry \r\n- Evolutionary Biology", "content_markdown": "**Master\u2019s Degree in Molecular Biology \u2013 Two Year Duration** \r\nAt the master\u2019s level, molecular biology students typically take some core and elective courses before moving on to seminar style courses. These seminars focus on cellular and molecular research being conducted at their school and on the reading and discussion of published journal articles in the field. The master\u2019s program\u2019s culminating requirement is typically a thesis based on original research. Some schools may offer a non-thesis option. \r\n\r\nHere is a snapshot of a possible master\u2019s program in molecular biology: \r\n\r\n**Core Courses** \r\n\r\n- Molecular Genetics \u2013 the molecular structure of and replication of DNA and its influence in determining the overall makeup of an organism \r\n- Elements of Biochemistry \u2013 overview of carbohydrates, proteins, lipids, nucleic acids, and other biological substances and their importance in life processes \r\n- Research \u2013 laboratory investigations in one of the department\u2019s research areas \r\n- Advanced Cell Biology \u2013 cell structure and biochemistry, as related to specialized cell functions \r\n- Molecular Cell Biology \u2013 molecular aspects of cell structure, cell motility (spontaneous movement of a cell); molecular aspects of gene expression including RNA \r\n- Techniques in Cellular and Molecular Biology \u2013 laboratory experiences in cellular and molecular biological techniques (examples: DNA/RNA sequencing, immunological detection methods, and molecular cloning techniques) \r\n\r\n**Electives** \r\n\r\n- Development and Disease \r\n- Immunology \r\n- Developmental Biology \r\n- Cellular Basis of Human Disease \r\n- Structure and Function of RNAs and Ribonucleoprotein Complexes \r\n\r\n**Doctoral Degree in Molecular Biology \u2013 Five to Six Year Duration** \r\nWhile molecular biology doctoral candidates are encouraged to complete coursework in computational / quantitative approaches, the focus of their studies is a specific area of research, from which they will propose and defend their dissertation. \r\n\r\nSample areas of research include: \r\n\r\n- Cancer Biology \r\n- Gene Expression \r\n- Genome Structure, Evolution, and Repair \r\n- Infectious Disease \r\n- Metabolism and Physiology \r\n- Microbiomes \r\n- Plant Molecular Biology \r\n- Prions and Neurobiology \r\n- Stem Cells and Development \r\n- Synthetic Biology", "content_html": "

Master\u2019s Degree in Molecular Biology \u2013 Two Year Duration
\nAt the master\u2019s level, molecular biology students typically take some core and elective courses before moving on to seminar style courses. These seminars focus on cellular and molecular research being conducted at their school and on the reading and discussion of published journal articles in the field. The master\u2019s program\u2019s culminating requirement is typically a thesis based on original research. Some schools may offer a non-thesis option.

\n

Here is a snapshot of a possible master\u2019s program in molecular biology:

\n

Core Courses

\n\n

Electives

\n\n

Doctoral Degree in Molecular Biology \u2013 Five to Six Year Duration
\nWhile molecular biology doctoral candidates are encouraged to complete coursework in computational / quantitative approaches, the focus of their studies is a specific area of research, from which they will propose and defend their dissertation.

\n

Sample areas of research include:

\n", "display_order": 2, "created_at": "2019-08-29T17:56:36.985142-07:00", "updated_at": "2022-01-04T15:06:36.693894-08:00"}, {"degree_id": 23, "page": 1, "title": "Degrees Similar to Molecular Biology", "summary_markdown": "**[Agricultural Engineering](/degrees/agricultural-engineering-degree/)** \r\nAgricultural engineering is the branch of engineering concerned with the design of farm machinery, the location and planning of farm structures, farm drainage, soil management and erosion control, water supply and irrigation, rural electrification, and the processing of farm products. \r\n\r\n**[Biochemistry](/degrees/biochemistry-degree/)** \r\nThe focus of biochemistry is the chemical processes and reactions that occur in living matter. Biochemists apply principles of both biology and chemistry to issues in many different sectors, including the environment, medicine and health, industry and manufacturing, agriculture, biofuels, and marine science. \r\n\r\n**[Biology](/degrees/biology-degree/)** \r\nA general biology degree program may include subjects like animal biology, invertebrate biology, vertebrate biology, cellular and molecular biology, evolution, microbiology, and ecology. \r\n\r\n**[Biomedical Engineering](/degrees/biomedical-engineering-degree/)** \r\nSimply stated, biomedical engineering uses engineering to solve health and medical problems. For example, a biomedical engineer might look for chemical signals in the body that warn of a particular disease or condition. \r\n\r\n**[Cellular Biology](/degrees/cellular-biology-degree/)** \r\nCellular biology is a branch of biology focused on the study of cell structure and function, on how cells form and divide, and how they differentiate and specialize.", "content_markdown": "**[Chemistry](/degrees/chemistry-degree/)** \r\nChemistry deals with identifying the substances that make up matter. Degree programs in chemistry focus on investigating these substances: their properties; how they interact, combine, and change; and how scientists can use chemical processes to form new substances. \r\n\r\n**[Genetics](/degrees/genetics-degree/)** \r\nGenetics is the study of heredity. It attempts to answer questions about how inherited traits are transmitted from parents to offspring. \r\n\r\n**[Pre-Medicine](/degrees/pre-medicine-degree/)** \r\nThere is no distinct pre-medicine degree. \u2018Pre-medicine\u2019 or \u2018pre-med\u2019 is merely a term that students planning to go to medical school use to describe their undergraduate studies. In fact, aspiring doctors enter med school having earned many different bachelor\u2019s degrees. \r\n\r\nA science program such as biology or chemistry is certainly a common choice, but it is not mandatory. In other words, a pre-med student can be a psychology major, a statistics major, or a Spanish major. The key for students is to incorporate into their studies the classes needed to apply to medical school.", "content_html": "

Chemistry
\nChemistry deals with identifying the substances that make up matter. Degree programs in chemistry focus on investigating these substances: their properties; how they interact, combine, and change; and how scientists can use chemical processes to form new substances.

\n

Genetics
\nGenetics is the study of heredity. It attempts to answer questions about how inherited traits are transmitted from parents to offspring.

\n

Pre-Medicine
\nThere is no distinct pre-medicine degree. \u2018Pre-medicine\u2019 or \u2018pre-med\u2019 is merely a term that students planning to go to medical school use to describe their undergraduate studies. In fact, aspiring doctors enter med school having earned many different bachelor\u2019s degrees.

\n

A science program such as biology or chemistry is certainly a common choice, but it is not mandatory. In other words, a pre-med student can be a psychology major, a statistics major, or a Spanish major. The key for students is to incorporate into their studies the classes needed to apply to medical school.

", "display_order": 3, "created_at": "2019-08-29T17:56:36.987283-07:00", "updated_at": "2022-01-04T15:04:07.810617-08:00"}, {"degree_id": 23, "page": 1, "title": "Skills You’ll Learn", "summary_markdown": "- Attention to detail \r\n- Awareness of ethical issues \r\n- Communication and teamwork \r\n- Computer literacy \r\n- Experiment design and troubleshooting \r\n- Observation, investigation, and problem solving \r\n- Practical lab skills \r\n- Report writing and documentation \r\n- Research and data analysis and interpretation \r\n- Safety consciousness \r\n- Use of statistical tests in data analysis", "content_markdown": "", "content_html": "", "display_order": 4, "created_at": "2019-08-29T17:56:36.989378-07:00", "updated_at": "2022-01-04T14:58:48.787991-08:00"}, {"degree_id": 23, "page": 1, "title": "What Can You Do with a Molecular Biology Degree?", "summary_markdown": "Sectors and industries that hire molecular biology graduates include: \r\n\r\n- Bioinformatics \r\n- Biotechnology \r\n- Education / Academic Research \r\n- Government / Public Policy \r\n- Healthcare \r\n- Medical Research \r\n- Pharmacology \r\n- Science Journalism and Writing \r\n- Testing Laboratories", "content_markdown": "Specific roles / titles for holders of a bachelor\u2019s in the field include: \r\n\r\n- Biotechnologist \r\n- Embryologist \r\n- Forensic DNA Analyst \r\n- Molecular Genetics Technologist \r\n- Molecular Laboratory Technologist \r\n- Plant Geneticist \r\n- Research Associate \r\n- Research Technologist \r\n\r\nSpecific roles / titles for holders of a graduate degree in the field include: \r\n\r\n- Animal Geneticist \r\n- Biological System Specialist \r\n- Cancer Researcher \r\n- Clinical Geneticist \r\n- Cytogeneticist \r\n- [Genetic Counselor](//www.chevelle-parts.com/careers/genetic-counselor/) \r\n- Human Geneticist \r\n- Researcher \r\n- Statistical Geneticist \r\n\r\nDegrees in this field also provide foundations for entry into health professional programs in medicine, dentistry, and public health.", "content_html": "

Specific roles / titles for holders of a bachelor\u2019s in the field include:

\n\n

Specific roles / titles for holders of a graduate degree in the field include:

\n\n

Degrees in this field also provide foundations for entry into health professional programs in medicine, dentistry, and public health.

", "display_order": 5, "created_at": "2019-08-29T17:56:36.991493-07:00", "updated_at": "2022-01-04T15:05:22.069542-08:00"}], "degree_specializations": []}">

什么是分子生物学学位?

分子生物学家在分子水平上研究生物系统。换句话说,他们研究的是最小形式的生命。分子生物学以化学、生理学、遗传学、物理学和生物学为基础,专注于细胞过程的分子控制和各种细胞系统之间的相互作用。这个生物化学的专门分支,随着DNA结构的发现而扩大,正在改变生物学和生物医学科学的所有领域,并对医学、农业和工业产生影响。

程序选项

分子生物学学士学位-四年
分子生物学学士学位为学生在细胞和分子生物学领域的入门级和中级职业生涯做好准备,或为硕士课程的高级学习做好准备。

本科课程侧重于分子、细胞、有机体和生态系统层面的基本生物学概念。学生培养一般实验室和现场技能的能力,并学习应用批判性思维技能和定量工具来评估生物信息。

这是一个本科分子生物学课程的例子:

核心课程

  • 细胞生物学与实验室-基本概念的结构,功能,和繁殖的细胞
  • 有机生物学与实验室-植物和动物的生物多样性从进化的角度;形式与功能的关系;生物体与其环境的关系
  • 定量生物学与实验室-数学和统计学在生物学中的应用;计算机应用实验室
  • 遗传学与实验室-现代分子和经典原理的基础上的生物遗传
  • 微生物学与实验室-基本和应用微生物学的概念,包括细菌学,病毒学和免疫学;微生物实验室技术
  • 分子生物学与实验室-基因的分子生物学,基因结构和真核生物(其细胞有一个核包围在核膜内的有机体)的表达;研究基因组、基因和基因表达调控的技术
  • 研究设计-学生将确定一个问题,使用数据库对该主题进行文献搜索,在选定的生物科学领域设计一个实验,并学习如何在研究计划中展示他们的发现
  • 生物学研究-个人研究项目,由研究顾问接受

除了这门核心课程外,学生还选修了一套相关的要求和选修课。下面是一些例子:

  • 普通化学与实验室
  • 有机化学与实验室
  • 生物化学与实验室
  • 普通物理与实验室
  • 有关微积分的知识
  • 微积分
  • 神经生物学
  • 医学微生物学
  • 细胞培养与免疫化学
  • 进化生物学

分子生物学硕士学位-为期两年
在硕士阶段,分子生物学的学生通常在进入研讨会式课程之前学习一些核心课程和选修课程。这些研讨会的重点是在他们的学校进行的细胞和分子研究,以及在该领域发表的期刊文章的阅读和讨论。硕士课程的最终要求通常是一篇基于原创研究的论文。有些学校可能会提供非论文的选择。

以下是一个可能的分子生物学硕士课程的快照:

核心课程

  • 分子遗传学- DNA的分子结构和复制及其在决定一个有机体的整体组成方面的影响
  • 生物化学元素-概述碳水化合物,蛋白质,脂质,核酸和其他生物物质及其在生命过程中的重要性
  • 研究-本系研究领域之一的实验室调查
  • 高级细胞生物学-细胞结构和生物化学,如与专门的细胞功能有关
  • 分子细胞生物学-细胞结构的分子方面,细胞运动(细胞的自发运动);包括RNA在内的基因表达的分子方面
  • 细胞和分子生物学技术-细胞和分子生物学技术的实验室经验(例如:DNA/RNA测序,免疫检测方法和分子克隆技术)

选修课

  • 发育与疾病
  • 免疫学
  • 发育生物学
  • 人类疾病的细胞基础
  • rna和核糖核蛋白复合物的结构和功能

分子生物学博士学位,5 - 6年学制
虽然分子生物学博士候选人被鼓励完成计算/定量方法的课程,但他们的研究重点是一个特定的研究领域,他们将从这个领域提出并捍卫他们的论文。

研究的样本领域包括:

  • 癌症生物学
  • 基因表达
  • 基因组结构、进化与修复
  • 传染性疾病
  • 代谢与生理
  • 微生物组
  • 植物分子生物学
  • 朊病毒与神经生物学
  • 干细胞与发育
  • 合成生物学

类似分子生物学的学位

农业工程
农业工程是涉及农业机械设计、农场结构的定位和规划、农场排水、土壤管理和侵蚀控制、供水和灌溉、农村电气化以及农产品加工的工程分支。

生物化学
生物化学的重点是发生在生物物质中的化学过程和反应。生物化学家将生物学和化学的原理应用于许多不同领域的问题,包括环境、医学和健康、工业和制造业、农业、生物燃料和海洋科学。

生物学
一般的生物学学位课程可能包括动物生物学、无脊椎动物生物学、脊椎动物生物学、细胞和分子生物学、进化、微生物学和生态学等学科。

生物医学工程
简单地说,生物医学工程利用工程来解决健康和医疗问题。例如,生物医学工程师可能会在体内寻找警告特定疾病或状况的化学信号。

细胞生物学
细胞生物学是生物学的一个分支,专注于研究细胞结构和功能,细胞如何形成和分裂,以及它们如何分化和特化。

化学
化学研究的是识别构成物质的物质。化学学位课程侧重于研究这些物质:它们的性质;它们如何相互作用、结合和变化;以及科学家如何利用化学过程来形成新物质。

遗传学
遗传学是研究遗传的学科。它试图回答关于遗传特征如何从父母传递给后代的问题。

Pre-Medicine
没有明确的医学预科学位。“医学预科”或“医学预科”只是计划上医学院的学生用来描述他们的本科学习的一个术语。事实上,有抱负的医生进入医学院已经获得了许多不同的学士学位。

生物或化学等科学课程当然是常见的选择,但这不是强制性的。换句话说,医学预科生可以是心理学专业、统计学专业或西班牙语专业的学生。对学生来说,关键是把申请医学院所需的课程纳入他们的学习。

你将学会的技能

  • 注重细节
  • 道德问题意识
  • 沟通与团队合作
  • 计算机知识
  • 实验设计及故障排除
  • 观察、调查和解决问题
  • 实验室实践技能
  • 撰写报告和文件
  • 研究和数据分析及解释
  • 安全意识
  • 在数据分析中使用统计检验

有了分子生物学学位你能做什么?

招聘分子生物学毕业生的部门和行业包括:

  • 生物信息学
  • 生物技术
  • 教育/学术研究
  • 政府/公共政策
  • 医疗保健
  • 医学研究
  • 药理学
  • 科学新闻与写作
  • 测试实验室

该领域学士学位持有者的具体角色/头衔包括:

  • 生物
  • 胚胎学家
  • 法医DNA分析员
  • 分子遗传学技术专家
  • 分子实验室技术员
  • 植物遗传学家
  • 研究助理
  • 研究技术

该领域研究生学位持有者的具体角色/头衔包括:

  • 动物遗传学家
  • 生物系统专家
  • 癌症研究人员
  • 临床遗传学家
  • Cytogeneticist
  • 基因顾问
  • 人类遗传学家
  • 研究员
  • 统计遗传学家

该领域的学位也为进入医学、牙科和公共卫生卫生专业课程提供了基础。

学费

看看哪些学校学费最贵,哪些学校学费最便宜。

了解学费