One of the branches in the field of medicine is biomedicine. This field takes a different approach to clinical practice through biological and physiological principles. Biomedicines as a branch of medicine mainly applies to biology and physiology. This field does not only apply to medical science but also other fields mainly related to biology and health.
Many subspecialties fall under biomedicine, especially those that bear the bio prefix. Some of them include biological engineering, biostatistics, cytogenetics, genetics, biotechnology, virology, pathology, anatomy, cell biology, physiology, toxicology, and molecular biology among many others. Most of these fields have many things in common. In fact, it is simple for a student to switch between them through short transitional courses.
Laboratory diagnostics and modern health care subspecialties involve medical biology. Such subspecialties handle scientific and technological methods in broad range. Such approaches cut across not only biology but also physiology. In this field, comprehending relations at the molecular level and the outcomes at the level of in vivo are the methods used here. A study is done on such methods so as to assist to create fresh tactics for diagnosis and therapy.
Biomedicine field pinpoints maladies among persons or individuals, plants and animals, and continues to examine them. Through the field, medical mediation methods are created. Biomedicine greatly focuses on refining the health of the persons affected or entity unlike the entire medicine field. For medicine field, focuses on healing the diagnosed maladies the person suffers from. .
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.
In the process of polymerase chain reaction it involves mixing of nucleotide bases, DNA, primers and DNA polymerase after which it is placed in a machine. The machine is used to heat and cool the mixture at variable temperatures. During this process the hydrogen bond binding DNA is broken making it possible for nucleotide bases to be added into the DNA strands creating a new pattern 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.
The sizes of the strands will determine how fast the DNA strands will move to the positive electrode. The pattern exhibited by two strands makes it possible to tell if they are the same. If the strands are similar they will have the same speed and the same pattern in their movement.
Many subspecialties fall under biomedicine, especially those that bear the bio prefix. Some of them include biological engineering, biostatistics, cytogenetics, genetics, biotechnology, virology, pathology, anatomy, cell biology, physiology, toxicology, and molecular biology among many others. Most of these fields have many things in common. In fact, it is simple for a student to switch between them through short transitional courses.
Laboratory diagnostics and modern health care subspecialties involve medical biology. Such subspecialties handle scientific and technological methods in broad range. Such approaches cut across not only biology but also physiology. In this field, comprehending relations at the molecular level and the outcomes at the level of in vivo are the methods used here. A study is done on such methods so as to assist to create fresh tactics for diagnosis and therapy.
Biomedicine field pinpoints maladies among persons or individuals, plants and animals, and continues to examine them. Through the field, medical mediation methods are created. Biomedicine greatly focuses on refining the health of the persons affected or entity unlike the entire medicine field. For medicine field, focuses on healing the diagnosed maladies the person suffers from. .
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.
In the process of polymerase chain reaction it involves mixing of nucleotide bases, DNA, primers and DNA polymerase after which it is placed in a machine. The machine is used to heat and cool the mixture at variable temperatures. During this process the hydrogen bond binding DNA is broken making it possible for nucleotide bases to be added into the DNA strands creating a new pattern 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.
The sizes of the strands will determine how fast the DNA strands will move to the positive electrode. The pattern exhibited by two strands makes it possible to tell if they are the same. If the strands are similar they will have the same speed and the same pattern in their movement.
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