How theory of relativity depends on time and gravity ?
Recombinant DNA (rDNA) is a form of artificial DNA that is created by combining two or more sequences that would not normally occur together. This technology involves the insertion of foreign DNA into the genome of an organism, which then expresses the new genetic information. Here’s an explanationRead more
Recombinant DNA (rDNA) is a form of artificial DNA that is created by combining two or more sequences that would not normally occur together. This technology involves the insertion of foreign DNA into the genome of an organism, which then expresses the new genetic information. Here’s an explanation of the steps involved in creating recombinant DNA and its use in DNA fingerprinting:
Steps in Creating Recombinant DNA:
- Isolation of DNA: The DNA containing the gene of interest is isolated from the donor organism. Similarly, a plasmid (a small circular DNA molecule) is isolated from a bacterial cell.
- Cutting DNA: Both the plasmid DNA and the donor DNA are cut using the same restriction enzymes. These enzymes recognize specific sequences in the DNA and cut at those sites, creating sticky ends.
- Ligation: The cut DNA fragments are mixed together, and the sticky ends pair up. DNA ligase enzyme is used to join the sugar-phosphate backbones of the DNA molecules, creating a continuous DNA strand. The result is a recombinant plasmid containing the gene of interest.
- Transformation: The recombinant plasmid is introduced into a host cell, often a bacterium, through a process called transformation. The bacteria take up the plasmid from their environment.
- Selection and Screening: Not all bacteria will take up the plasmid. Selectable markers (such as antibiotic resistance genes) are used to identify those that have. Bacteria that have successfully incorporated the plasmid can grow on media containing the antibiotic, while those that have not will die.
- Expression: The bacteria containing the recombinant plasmid are cultured, and they express the gene of interest, producing the desired protein.
Use in DNA Fingerprinting:
DNA fingerprinting, also known as DNA profiling, is a technique used to identify individuals based on unique patterns in their DNA. Here’s how recombinant DNA technology can be applied in DNA fingerprinting:
- Sample Collection: Biological samples such as blood, saliva, hair, or skin cells are collected from individuals.
- DNA Extraction: DNA is extracted from the collected samples.
- Restriction Fragment Length Polymorphism (RFLP) Analysis:
- The DNA is cut into fragments using restriction enzymes.
- The resulting fragments vary in length between individuals due to variations in their DNA sequences.
- Gel Electrophoresis: The DNA fragments are separated based on size using gel electrophoresis. This creates a pattern of bands on the gel.
- Southern Blotting: The DNA is transferred from the gel to a membrane, which is then hybridized with radioactive or fluorescent DNA probes that bind to specific DNA sequences.
- Detection: The membrane is exposed to X-ray film or a digital imaging system to detect the probes, resulting in a pattern of bands unique to the individual, much like a barcode.
Applications of DNA Fingerprinting:
- Forensic Science: Identifying suspects in criminal cases by comparing DNA found at crime scenes with DNA from suspects.
- Paternity Testing: Establishing parentage by comparing the DNA profiles of a child and the alleged parent(s).
- Genetic Relationships: Determining genetic relationships between individuals in cases of immigration or ancestry research.
- Identification of Remains: Identifying remains in disaster victim identification or in archaeological studies.
- Wildlife and Conservation Biology: Tracking genetic diversity and studying population genetics of endangered species.
Recombinant DNA technology plays a crucial role in enabling precise manipulation and analysis of genetic material, which is fundamental to DNA fingerprinting and many other applications in genetics and biotechnology.
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According to relativity Gravity or Gravitational force is an illusion. Suppose a Astronaut is traveling on a geodesic (a straight line path) but when you observe it appears like helix it only look circular when you forget time dimension So acceleration or acceleration due to gravity is just a deviRead more
According to relativity Gravity or Gravitational force is an illusion. Suppose a Astronaut is traveling on a geodesic (a straight line path) but when you observe it appears like helix it only look circular when you forget time dimension
So acceleration or acceleration due to gravity is just a deviation from geodesic.
Now suppose you are in rocket and a beam of light pass in rocket from one point to another and when your rocket move with uniform velocity than for you light is move in straight line and also for distinct observer but if you accelerate your rocket with 9.8 m/s then you saw light path is not straight (curve) but for distinct observer light path is still straight. This explain Einstein General theory of relativity .
According to this group due to bending of space time curve due to mass of planet the path of light or any object move along that mass change to helix. That’s why light coming from stars is not straight you can observe it during Solar eclipse .Thus time for straight path is less as compare to helix. By time dilation for high gravity your time increase and for less gravity your time decrease which occur in space
T=T0/(1-v²/c²)^1/2
T=T0/(1-2gR/c²)^1/2
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