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【公司名称】 广州健仑生物科技有限公司
【市场部】 欧
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【腾讯 】
【公司地址】 广州清华科技园创新基地番禺石楼镇创启路63号二期2幢101-103室
早期生物物理学的研究是从生物发光、生物电等问题开始的,此后随着生物学的发展,物理学新概念,如量子物理、信息论等的介入和新技术如 X衍射、光谱、波谱等的使用,生物物理的研究范围和水平不断加宽加深。一些重要的生命现象如光合作用的原初瞬间捕捉光能的反应,生物膜的结构及作用机制等都是生物物理学的研究课题。生物大分子晶体结构、量子生物学以及生物控制论等也都属于生物物理学的范围。是利用统计学、几何学和一些初等的解析方法对生物现象做静止的、定量的分析。20世纪20年细菌以后,人们开始建立数学模型,模拟各种生命过程。生物数学在生物学各领域如生理学、遗传学、生态学、分类学等领域中都起着重要的作用,使这些领域的研究水平迅速提高,另一方面,生物数学本身也在解决生物学问题中发展成一独立的学科。
有少数生物学科是按方法来划分的,如描述胚胎学、比较解剖学、实验形态学等。按方法划分的学科,往往作为更低一级的分支学科,被包括在上述按属性和类型划分的学科中。
生物界是一个多层次的复杂系统。为了揭示某一层次的规律以及和其他层次的关系,出现了按层次划分的学科并且愈来愈受人们的重视。
分子生物学细胞生物学是研究细胞层次生命过程的学科,早期称细胞学是以形态描述为主的。以后,细胞学吸收了分子生物学的成就,深入到超微结构的水平,主要研究细胞的生长、细菌谢和遗传等生物学过程,细胞学也就发展成细胞生物学了。个体生物学是研究个体层次生命过程的学科。在复式显微镜发明之前,生物学大都是以个体和器官系统为研究对象的。研究个体的过程有必要分析组成这一过程的器官系统过程、细胞过程和分子过程。但是个体的过程又不同于器官系统过程、细胞过程或分子过程的简单相加。个体的过程存在着自我调节控制的机制,通过这一机制,高度复杂的有机体整合为高度协调的统一体,以协调一致的行为反应于外界因素的刺激。个体生物学建立得很早,直到现在,仍是十分重要的。
种群生物学是研究生物种群的结构、种群中个体间的相互关系、种群与环境的关系以及种群的自我调节和遗传机制等。种群生物学和生态学是有很大重叠的,实际上种群生物学可以说是生态学的一个基本部分。
以上所述,还仅仅是当前生物学分科的主要格局,实际的学科比上述的还要多。例如,随着人类的进入太空,宇宙生物学已在发展之中。又如随着实验精确度的不断提高,对实验动物的要求也越来越严,研究无菌生物和悉生态的悉生生物学也由于需要而建立起来。总之,一些新的学科不断地分化出来,一些学科又在走向融合。生物学分科的这种局面,反映了生物学极其丰富的内容,也反映了生物学蓬勃发展的景象。
Early biophysical research began with the issues of bioluminescence and bioelectricity. Since then, with the development of biology, new concepts in physics such as quantum physics, information theory, and new techniques such as X-ray diffraction, spectroscopy, spectroscopy, etc. The use of biophysical research scope and level continue to broaden and deepen. Some important phenomena of life, such as the reaction of light energy to capture the original moment of photosynthesis, the structure and mechanism of biofilm, are the research topics of biophysics. Crystal structure of biological macromolecules, quantum biology and biological control theory also belong to the scope of biophysics. It is a static and quantitative analysis of biological phenomena using statistics, geometry and some elementary analytical methods. After 20 years of bacteria in the 20th century, people began to set up mathematical models to simulate various life processes. Biomathematics plays an important role in various fields of biology, such as physiology, genetics, ecology, taxonomy and other fields, so that the level of research in these fields rapidly increases. On the other hand, biomathematics itself is also solving biological problems In the development of an independent discipline.
A small number of biological disciplines are divided by method, such as description of embryology, comparative anatomy, experimental morphology and so on. Discipline disciplines, often sub-disciplines at lower levels, are included in the above-mentioned disciplines by attribute and type.
The biological world is a multi-level complex system. In order to reveal the laws of a certain level and the relations with other levels, the disciplines according to the levels have emerged and are getting more and more attention.
Molecular Biology Cell Biology is a discipline that studies cell-level life processes. Early on, cytology was characterized primarily by morphology. Later, cytology has absorbed the achievements of molecular biology, went deep into the level of ultrastructure, the main study of cell growth, bacterial metabolism and genetic and other biological processes, cytology also developed into cell biology. Individual biology is a discipline that studies the process of life at the individual level. Before the invention of the multispectral microscopy, biology mostly focused on individual and organ systems. It is necessary to study the processes of the individual to analyze the organ system processes, cellular processes and molecular processes that make up this process. But individual processes differ from simple additions of organ system processes, cellular processes, or molecular processes. There is a mechanism for self-regulation of individual processes through which highly complex organisms are integrated into a highly coordinated unity that is stimulated by coordinated behavioral responses to external factors. Individual biology was established very early, until now, is still very important.
Population biology is the study of the structure of the biological population, the interrelationship among the individuals in the population, the relationship between the population and the environment, and the self-regulation and genetic mechanism of the population. Population biology and ecology have great overlap, in fact, population biology can be said that ecology is an essential part.
As mentioned above, it is still the main pattern of the current biology branch, and there are more actual subjects than the above. For example, cosmobiology is evolving as humans move into space. In another example, with the continuous improvement of experimental accuracy, the requirements for experimental animals are also getting more and more strict, and the development of aseptic biology and ecological learning biology are also needed due to the establishment. In short, some new disciplines continue to differentiate, and some disciplines are converging. This branch of biology reflects the extremely rich content of biology and also reflects the booming biology.