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Random amplified polymorphic DNA (RAPD), pronounced "rapid", [1] is a type of polymerase chain reaction (PCR), but the segments of DNA that are amplified are random. [2] The scientist performing RAPD creates several arbitrary, short primers (10–12 nucleotides), then proceeds with the PCR using a large template of genomic DNA, hoping that fragments will amplify.
Primer Premier is a bioinformatics software used for various PCR applications. It supports the design of degenerate primers for amplifying a related set of nucleotide sequences for the detection of common traits amongst organisms, as well as to determine heredity. [1] The software also designs tagged and nested primers for multiplex PCR ...
The free NCBI tool Primer-BLAST integrates primer design and BLAST search into one application, [6] as do commercial software products such as ePrime and Beacon Designer. Computer simulations of theoretical PCR results ( Electronic PCR ) may be performed to assist in primer design by giving melting and annealing temperatures, etc. [ 7 ]
It performs a fast, gapless alignment to test the complementarity of the primers to the target sequences. Probable PCR products can be found for linear and circular templates using standard or inverse PCR as well as for multiplex PCR. Dicey [15] is free software that outputs in-silico PCR products from primer sets provided in a FASTA file.
Polymerase chain reaction itself is the process used to amplify DNA samples, via a temperature-mediated DNA polymerase.The products can be used for sequencing or analysis, and this process is a key part of many genetics research laboratories, along with uses in DNA fingerprinting for forensics and other human genetic cases.
GFP-T, on the other hand, allows the mapping of multiple 8B/10B block-coded client data streams into an efficient 64B/65B block code for transport within a GFP frame. GFP utilizes a length/ HEC-based frame delineation mechanism that is more robust than that used by High-Level Data Link Control (HDLC), which is single octet flag-based.
Tailed-primers include non-complementary sequences at their 5' ends. A common procedure is the use of linker-primers, which ultimately place restriction sites at the ends of the PCR products, facilitating their later insertion into cloning vectors. An extension of the 'colony-PCR' method (above), is the use of vector primers.
Secondary structures in the DNA can result in folding or knotting of DNA template or primers, leading to decreased product yield or failure of the reaction. Hairpins, which consist of internal folds caused by base-pairing between nucleotides in inverted repeats within single-stranded DNA, are common secondary structures and may result in failed PCRs.