For more information, log on to-
Download the study materials here-
A single-nucleotide polymorphism (SNP, pronounced snip; plural snips) is a DNA sequence variation occurring when a single nucleotide — A, T, C or G — in the genome (or other shared sequence) differs between members of a biological species or paired chromosomes in a human. For example, two sequenced DNA fragments from different individuals, AAGCCTA to AAGCTTA, contain a difference in a single nucleotide. In this case we say that there are two alleles. Almost all common SNPs have only two alleles. The genomic distribution of SNPs is not homogenous; SNPs usually occur in non-coding regions more frequently than in coding regions or, in general, where natural selection is acting and fixating the allele of the SNP that constitutes the most favorable genetic adaptation.[1] Other factors, like genetic recombination and mutation rate, can also determine SNP density.[2]
SNP density can be predicted by the presence of microsatellites: AT microsatellites in particular are potent predictors of SNP density, with long (AT)(n) repeat tracts tending to be found in regions of significantly reduced SNP density and low GC content.[3]
Within a population, SNPs can be assigned a minor allele frequency — the lowest allele frequency at a locus that is observed in a particular population. This is simply the lesser of the two allele frequencies for single-nucleotide polymorphisms. There are variations between human populations, so a SNP allele that is common in one geographical or ethnic group may be much rarer in another.
These genetic variations between individuals (particularly in non-coding parts of the genome) are exploited in DNA fingerprinting, which is used in forensic science . Also, these genetic variations underlie differences in our susceptibility to disease. The severity of illness and the way our body responds to treatments are also manifestations of genetic variations. For example, a single base mutation in the APOE (apolipoprotein E) gene is associated with a higher risk for Alzheimer disease.[4] Source of the article published in description is Wikipedia. I am sharing their material. Copyright by original content developers.
Link-
10 views
379
115
3 months ago 00:35:26 1
Ron Vale (UCSF, HHMI) 1: Molecular Motor Proteins
3 months ago 00:11:12 1
10 FRUTAS inventadas por el HUMANO - Beagle’s Diary -
6 months ago 00:01:58 3
What does DNA sound like? 07 DNA as Music
9 months ago 00:00:57 1
Polypeptides vs Proteins
9 months ago 00:00:59 1
How Thymine dimer mutations of DNA repaired in Humans?
9 months ago 00:00:59 1
Sickle-cell mutation
10 months ago 00:01:00 1
Sickle-cell Anemia
10 months ago 00:00:59 1
DNA Replication
10 months ago 00:00:34 1
Frameshift mutation
10 months ago 00:12:39 1
How to design Forward and Reverse Primers
10 months ago 00:06:17 1
The Sun Sneeze Gene
1 year ago 00:02:38 2
Difference between SNP and Mutation? Clear the differences between two
1 year ago 00:05:12 10
Single nucleotide polymorphism SNP
1 year ago 00:00:55 1
Mind-blowing Forensic Genetics
1 year ago 00:07:33 1
Graphics Display of All Encodings of the (4!)^3 = 3,375 Mixed Nucleotide Codons
1 year ago 00:00:22 1
Visualizing the Effects of Single Point Mutations on RNA Codons Using Graph Theory
1 year ago 00:15:34 6
GPCRs in VR: Human 5HT-2A SNPs & pharmacological signaling alterations of classic psychedelics
2 years ago 00:06:10 1
Extra bands in gel following Multiplex PCR?
2 years ago 00:08:02 1
How KASP marker works? SNP detection technique
2 years ago 00:04:46 1
Forward and Reverse Primer design for beginners
2 years ago 00:03:04 1
How to design primers for PCR
2 years ago 00:00:55 1
Elon Musk: Asperger’s Syndrome
2 years ago 00:00:59 1
Motherland of Gypsies: India or Egypt?
2 years ago 00:03:32 1
How to find recognition site for restriction enzyme?