Among the divisions in the area of medicine is biomedicine subdivision. This medical science subdivision engages in clinical activities by employing physiological and biological doctrines. Physiology and biology are specifically used in such a subdivision. Biomedicines also involve more other areas that are related apart from medical science. Principally, such areas have close relation with biology and health and biology in broad.
Biomedicine has a lot of sub branches, principally those that begin with the prefix of the word bio. Biostatistics, biological engineering, toxicology, cytogenetics, cell biology, biotechnology, genetics, pathology, virology, molecular biology, anatomy and physiology are among the sub branches. Such sub branches utmost share many common similarities. Through short transitional courses, a student can shift between these subspecialties with no difficulties.
Modern health care as a field together with laboratory diagnostics are built around medical biology. As a field, it is concerned with a wide range of technological and scientific approaches. These methods traverse both physiology and biology. The approaches employed in this field range from understanding interactions at the molecular level to understanding consequences at the level of in vivo. These processes are studied to help to devise new strategies for therapy and diagnosis.
Biomedicine helps to detect diseases in people, plants and animals and then goes ahead to investigate them. This field is important in helping to come up with devising of medical intervention approaches. Contrary to the whole field of medicine, biomedicine is more involved with bettering the health of an individual affected. In contrast, medicine mainly aims at curing a disease an individual has been diagnosed with.
Molecular biology is a very important branch within the field of biomedicine. It deals with the process of synthesizing and regulating protein, RNA, and DNA in cells. There are various techniques used in molecular biology, which include Gel electrophoresis, macromolecule blotting, and polymerase chain reaction. All these techniques are used in manipulating DNA in humans and animals.
With polymerase chain reaction, primers, nucleotid bases, DNA, and DNA polymerase are mixed and then placed in a machine. The machine functions is to heat and cool the combination at fluctuating temperatures. This procedure helps to split the bonds of hydrogen which hold and bond together the DNA. As a result, nucleotide bases add themselves into the DNA strands. Such process enables the formation of a new template of DNA strand.
Molecular biology also used Gel electrophoresis tactic. Gel electrophoresis helps to identify the DNA that is alike in samples of anonymous DNA. An agarose gel is prepared in this process. The gel has wells. The DNA is emptied into these wells followed by application of an electric current on it. DNA strands are then attracted to the positive electrode depending on the protein groupings it contains.
Since the strands have diverse sizes, it normally causes the pace at which DNA strands pass to the positive electrode to differ. One can identify with eases if both strands are look-alike from the shape they display when making a move. Those strands that are alike usually have a tendency to make movement at the equivalent rate and display same pattern.
Biomedicine has a lot of sub branches, principally those that begin with the prefix of the word bio. Biostatistics, biological engineering, toxicology, cytogenetics, cell biology, biotechnology, genetics, pathology, virology, molecular biology, anatomy and physiology are among the sub branches. Such sub branches utmost share many common similarities. Through short transitional courses, a student can shift between these subspecialties with no difficulties.
Modern health care as a field together with laboratory diagnostics are built around medical biology. As a field, it is concerned with a wide range of technological and scientific approaches. These methods traverse both physiology and biology. The approaches employed in this field range from understanding interactions at the molecular level to understanding consequences at the level of in vivo. These processes are studied to help to devise new strategies for therapy and diagnosis.
Biomedicine helps to detect diseases in people, plants and animals and then goes ahead to investigate them. This field is important in helping to come up with devising of medical intervention approaches. Contrary to the whole field of medicine, biomedicine is more involved with bettering the health of an individual affected. In contrast, medicine mainly aims at curing a disease an individual has been diagnosed with.
Molecular biology is a very important branch within the field of biomedicine. It deals with the process of synthesizing and regulating protein, RNA, and DNA in cells. There are various techniques used in molecular biology, which include Gel electrophoresis, macromolecule blotting, and polymerase chain reaction. All these techniques are used in manipulating DNA in humans and animals.
With polymerase chain reaction, primers, nucleotid bases, DNA, and DNA polymerase are mixed and then placed in a machine. The machine functions is to heat and cool the combination at fluctuating temperatures. This procedure helps to split the bonds of hydrogen which hold and bond together the DNA. As a result, nucleotide bases add themselves into the DNA strands. Such process enables the formation of a new template of DNA strand.
Molecular biology also used Gel electrophoresis tactic. Gel electrophoresis helps to identify the DNA that is alike in samples of anonymous DNA. An agarose gel is prepared in this process. The gel has wells. The DNA is emptied into these wells followed by application of an electric current on it. DNA strands are then attracted to the positive electrode depending on the protein groupings it contains.
Since the strands have diverse sizes, it normally causes the pace at which DNA strands pass to the positive electrode to differ. One can identify with eases if both strands are look-alike from the shape they display when making a move. Those strands that are alike usually have a tendency to make movement at the equivalent rate and display same pattern.
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