List of life sciences: Difference between revisions
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===Biochemistry=== |
===Biochemistry=== |
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[[Image:1GZX Haemoglobin.png|thumb|right|upright|A schematic of [[hemoglobin]]. The red and blue ribbons represent the protein [[globin]]; the green structures are the [[heme]] groups.]] |
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Biochemistry, sometimes called biological chemistry, is the study of [[chemistry|chemical]] processes within and relating to, living [[organism]]s.<ref>http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_ARTICLEMAIN&node_id=1188&content_id=CTP_003379&use_sec=true&sec_url_var=region1&__uuid=aa3f2aa3-8047-4fa2-88b8-32ffcad3a93e</ref> By controlling information flow through biochemical signaling and the flow of chemical energy through [[metabolism]], biochemical processes give rise to the complexity of [[life]]. Over the last 40 years, biochemistry has become so successful at explaining living processes that now almost all areas of the life sciences from [[botany]] to [[medicine]] are engaged in biochemical research.<ref>{{cite web|url= http://www.biochemistry.org/Education/Careers/Schoolsandcolleges/Whatisbiochemistry.aspx|title= scientific term 'biochemistry'}}</ref> Today, the main focus of pure biochemistry is in understanding how biological molecules give rise to the processes that occur within living [[Cell (biology)|cells]], which in turn relates greatly to the study and understanding of whole organisms. |
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Biochemistry is closely related to [[molecular biology]], the study of the molecular mechanisms by which [[Genetics|genetic]] information encoded in [[DNA]] is able to result in the processes of life. Depending on the exact definition of the terms used, molecular biology can be thought of as a branch of biochemistry, or biochemistry as a tool with which to investigate and study molecular biology. |
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Much of biochemistry deals with the structures, functions and interactions of biological [[macromolecule]]s, such as [[protein]]s, [[nucleic acid]]s, [[carbohydrate]]s and [[lipid]]s, which provide the structure of cells and perform many of the functions associated with life. The chemistry of the cell also depends on the reactions of smaller [[molecule]]s and [[ion]]s. These can be [[inorganic]], for example [[water]] and [[metal]] ions, or [[Organic compound|organic]], for example the [[amino acids]] which are used to synthesize proteins. The mechanisms by which cells harness energy from their environment via chemical reactions are known as [[metabolism]]. The findings of biochemistry are applied primarily in medicine, nutrition, and agriculture. In medicine, biochemists investigate the causes and cures of disease. In nutrition, they study how to maintain health and study the effects of nutritional deficiencies. In agriculture, biochemists investigate soil and fertilizers, and try to discover ways to improve crop cultivation, crop storage and pest control. |
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===Biocomputers=== |
===Biocomputers=== |
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{{main|Biocomputers}} |
{{main|Biocomputers}} |
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The life sciences comprise the fields of science that involve the scientific study of living organisms – such as microorganisms, plants, animals, and human beings – as well as related considerations like bioethics. While biology remains the centerpiece of the life sciences, technological advances in molecular biology and biotechnology have led to a burgeoning of specializations and interdisciplinary fields.[1]
Some life sciences focus on a specific type of life. For example, zoology is the study of animals, while botany is the study of plants. Other life sciences focus on aspects common to all or many life forms, such as anatomy and genetics. Yet other fields are interested in technological advances involving living things, such as bio-engineering. Another major, though more specific, branch of life sciences involves understanding the mind – neuroscience.
The life sciences are helpful in improving the quality and standard of life. They have applications in health, agriculture, medicine, and the pharmaceutical and food science industries.
The following is an incomplete list of as well as topics of study in the life sciences, in which there is considerable overlap between many entries:
Topics of study
Affective neuroscience
Affective neuroscience is the study of the neural mechanisms of emotion. This interdisciplinary field combines neuroscience with the psychological study of personality, emotion, and mood.[2]
Anatomy
Anatomy is the study of the body plan of animals. In some of its facets, anatomy is closely related to embryology, comparative anatomy and comparative embryology,[3] through common roots in evolution. Human anatomy is important in medicine.
The discipline of anatomy is subdivided into gross (or macroscopic) anatomy and microscopic anatomy. Gross anatomy is the study of structures that can, when suitably presented or dissected, be seen by unaided vision with the naked eye. Microscopic anatomy is the study of structures on a microscopic scale, including histology (the study of tissues) and cytology (the study of cells).
The history of anatomy is characterized by a continual development in understanding of the functions of the organs and structures of the human body. Methods have also improved dramatically, advancing from examination of animals through dissection of cadavers (dead human bodies) to 20th century techniques including X-ray, ultrasound, and magnetic resonance imaging.
Astrobiology
Astrobiology is the study of the origin, evolution, distribution, and future of life in the universe: extraterrestrial life and life on Earth. This interdisciplinary field encompasses the search for habitable environments in our Solar System and habitable planets outside our Solar System, the search for evidence of prebiotic chemistry, laboratory and field research into the origins and early evolution of life on Earth, and studies of the potential for life to adapt to challenges on Earth and in outer space.[4] Astrobiology addresses the question of whether life exists beyond Earth, and how humans can detect it if it does.[5] (The term exobiology is similar but more specific — it covers the search for life beyond Earth, and the effects of extraterrestrial environments on living things.)[6]
Astrobiology makes use of physics, chemistry, astronomy, biology, molecular biology, ecology, planetary science, geography, and geology to investigate the possibility of life on other worlds and help recognize biospheres that might be different from the biosphere on Earth.[7][8] Astrobiology concerns itself with interpretation of existing scientific data; given more detailed and reliable data from other parts of the universe, the roots of astrobiology itself—physics, chemistry and biology—may have their theoretical bases challenged. Although speculation is entertained to give context, astrobiology concerns itself primarily with hypotheses that fit firmly into existing scientific theories.
Biochemistry
Biochemistry, sometimes called biological chemistry, is the study of chemical processes within and relating to, living organisms.[9] By controlling information flow through biochemical signaling and the flow of chemical energy through metabolism, biochemical processes give rise to the complexity of life. Over the last 40 years, biochemistry has become so successful at explaining living processes that now almost all areas of the life sciences from botany to medicine are engaged in biochemical research.[10] Today, the main focus of pure biochemistry is in understanding how biological molecules give rise to the processes that occur within living cells, which in turn relates greatly to the study and understanding of whole organisms.
Biochemistry is closely related to molecular biology, the study of the molecular mechanisms by which genetic information encoded in DNA is able to result in the processes of life. Depending on the exact definition of the terms used, molecular biology can be thought of as a branch of biochemistry, or biochemistry as a tool with which to investigate and study molecular biology.
Much of biochemistry deals with the structures, functions and interactions of biological macromolecules, such as proteins, nucleic acids, carbohydrates and lipids, which provide the structure of cells and perform many of the functions associated with life. The chemistry of the cell also depends on the reactions of smaller molecules and ions. These can be inorganic, for example water and metal ions, or organic, for example the amino acids which are used to synthesize proteins. The mechanisms by which cells harness energy from their environment via chemical reactions are known as metabolism. The findings of biochemistry are applied primarily in medicine, nutrition, and agriculture. In medicine, biochemists investigate the causes and cures of disease. In nutrition, they study how to maintain health and study the effects of nutritional deficiencies. In agriculture, biochemists investigate soil and fertilizers, and try to discover ways to improve crop cultivation, crop storage and pest control.
Biocomputers
Biocontrol
Biodynamics
Bioinformatics
Biology
Biomaterials
Biomechanics
Biomedical science
Biomedicine
Biomonitoring
Biophysics
Biopolymers
Biotechnology
Botany
Cell biology
Cognitive neuroscience
Computational neuroscience
Conservation biology
Developmental biology
Ecology
Environmental science
Ethology
Evolutionary biology
Evolutionary genetics
Food science
Genetics
Genomics
Health sciences
Immunogenetics
Immunology
Immunotherapy
Kinesiology
Marine biology
Medical devices
Medical imaging
Medical Sciences
Medical Social Work
Microbiology
Molecular biology
Neuroethology
Neuroscience
Oncology
Optogenetics
Optometry
Parasitology
Pathology
Pharmacogenomics
Pharmaceutical sciences
Pharmacology
Physiology
Population dynamics
Proteomics
Psychiatric Social Work
Psychology
Sports science
Structural biology
Systems biology
Zoology
Scientific societies
- Federation of European Biochemical Societies (FEBS)
- European Molecular Biology Organization (EMBO)
- International Union of Biological Sciences (IUBS)
- Life Sciences Switzerland
See also
References
- ^ "Life Sciences". Empire State Development Corporation. Government of New York. Retrieved 3 February 2014.
- ^ Panksepp J (1992). "A role for "affective neuroscience" in understanding stress: the case of separation distress circuitry". In Puglisi-Allegra S, Oliverio A (ed.). Psychobiology of Stress. Dordrecht, Netherlands: Kluwer Academic. pp. 41–58. ISBN 0-7923-0682-1.
- ^ "Introduction page, "Anatomy of the Human Body". Henry Gray. 20th edition. 1918". Archived from the original on 16 March 2007. Retrieved 19 March 2007.
- ^ "How the search for aliens can help sustain life on Earth". CNN News. 4 October 2012. Retrieved 2012-10-08.
{{cite news}}
:|first=
missing|last=
(help); Check|first=
value (help) - ^ "About Astrobiology". NASA Astrobiology Institute. NASA. 21 January 2008. Archived from the original on 11 October 2008. Retrieved 2008-10-20.
{{cite web}}
: Unknown parameter|deadurl=
ignored (|url-status=
suggested) (help) - ^ Mirriam Webster Dictionary entry "Exobiology" (accessed 11 April 2013)
- ^ iTWire - Scientists will look for alien life, but Where and How?
- ^ Ward, P. D. (2004). The life and death of planet Earth. New York: Owl Books. ISBN 0-8050-7512-7.
{{cite book}}
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suggested) (help) - ^ http://portal.acs.org/portal/acs/corg/content?_nfpb=true&_pageLabel=PP_ARTICLEMAIN&node_id=1188&content_id=CTP_003379&use_sec=true&sec_url_var=region1&__uuid=aa3f2aa3-8047-4fa2-88b8-32ffcad3a93e
- ^ "scientific term 'biochemistry'".
Further reading
- Magner, Lois N. (2002). A history of the life sciences (3rd ed., rev. and expanded. ed.). New York: M. Dekker. ISBN 0824708245.