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In-Silico PCR searches a sequence database with a pair of PCR primers, using an indexing strategy for fast performance. See an example video on our YouTube channel. This tool is not guaranteed to find off-target locations for primers, it is optimized for 100% identical matches.
In-Silico PCR searches a sequence database with a pair of PCR primers, using an indexing strategy for fast performance. See an example video on our YouTube channel. This tool is not guaranteed to find off-target locations for primers, it is optimized for 100% identical matches.
UCSC In-Silico PCR. The sequences and coordinates shown below are from UCSC Genes, not from the genome assembly. The links lead to the Genome Browser at the position of the entire target sequence.
In this tutorial , we will explore the UCSC Genome Browser’s In-Silico PCR tool. This tool allows you to predict the sequence and size of products that would result from a polymerase chain reaction experiment using primers you may wish to use. You can see that there’s a link to the tool directly on the main page, at genome.ucsc.edu.
Primer Melting Temperatures. Forward: 59.3 C cttgtctcatcaccgacgac. Reverse: 59.9 C aatttcagcaagtggcgtg. The temperature calculations are done assuming 50 mM salt and 50 nM annealing oligo concentration.
In-Silico PCR searches a sequence database with a pair of PCR primers, using an indexing strategy for fast performance. Configuration Options. Genome and Assembly - The sequence database to search. Target - If available, choose to query transcribed sequences. Forward Primer - Must be at least 15 bases in length.
In-Silico PCR searches a sequence database with a pair of PCR primers, using an indexing strategy for fast performance. See an example video on our YouTube channel. This tool is not guaranteed to find off-target locations for primers, it is optimized for 100% identical matches.
SECTION 3: in-Silico PCR: 1. Go to the webpage: (http://genome.ucsc.edu/cgibin/hgPcr?db=hg18). 2. Configure the PCR tool by choosing the Genome and Assembly on which you are working. 3. The sequence for each primer must be at least 15 bases long. 4. The Reverse Primer must be on the opposite strand and pointing back toward the forward primer.
In-Silico PCR searches a sequence database with a pair of PCR primers, using an indexing strategy for fast performance. See an example video on our YouTube channel.
Description: Homo sapiens exportin 4 (XPO4), transcript variant 1, mRNA. (from RefSeq NM_022459) RefSeq Summary (NM_022459): XPO4 belongs to a large family of karyopherins (see MIM 602738) that mediate the transport of proteins and other cargo between the nuclear and cytoplasmic compartments (Lipowsky et al., 2000 [PubMed 10944119]).[supplied by OMIM, Mar 2009]. Gencode Transcript: ENST00000255305.11 Gencode Gene: ENSG00000132953.18 Transcript (Including UTRs) Position: hg38 chr13:20,777,329 ...
