dsDNA Molecular Weight Calculator

dsDNA Molecular Weight Calculator

Here’s a detailed table covering all the essential information you need to know about the molecular weight of double-stranded DNA (dsDNA), including the molecular weights of individual nucleotides, how to calculate the overall molecular weight, and related properties of dsDNA.

TopicDetails
DNA TypeDouble-stranded DNA (dsDNA)
Basic StructureTwo complementary strands of nucleotides (A-T, G-C pairing) forming a double helix
Nucleotides in dsDNAAdenine (A), Thymine (T), Guanine (G), Cytosine (C)
Molecular Weight of Nucleotides (g/mol)Adenine (A): 313.21 g/mol
Thymine (T): 304.2 g/mol
Guanine (G): 329.21 g/mol
Cytosine (C): 289.18 g/mol
dsDNA Base PairingA pairs with T, G pairs with C
Molecular Weight Calculation FormulaMolecularWeightofdsDNAMolecular Weight of dsDNAMolecularWeightofdsDNA = (A × 313.21) + (T × 304.2) + (G × 329.21) + (C × 289.18)
Phosphodiester Backbone ContributionThe weight of the sugar-phosphate backbone is included in nucleotide molecular weights
Average Molecular Weight per Base Pair~650 g/mol for one base pair (A-T or G-C)
Common DNA Sequence LengthsShort Oligonucleotide: 10-100 bp
Medium dsDNA: 1,000-10,000 bp
Large dsDNA: 100,000+ bp
Example CalculationFor 50 A, 50 T, 50 G, 50 C nucleotides:
Molecular weight = (50 × 313.21) + (50 × 304.2) + (50 × 329.21) + (50 × 289.18) = 61680 g/mol
Formula for Large SequencesMolecular Weight (g/mol) = Total number of base pairs × 650 g/mol
dsDNA Length (bp)Number of base pairs (bp) indicates DNA sequence length (1 bp = 1 paired nucleotide)
Molecular Weight of 1 Kilobase (1,000 bp)1 kb dsDNA = ~650,000 g/mol (650 g/mol per base pair)
Molecular Weight of 1 Megabase (1,000,000 bp)1 Mb dsDNA = ~650,000,000 g/mol
Uses of Molecular WeightMolecular biology (PCR, cloning), gene therapy, and determining physical DNA properties
State of dsDNAdsDNA exists as a helical structure with a stable double-stranded form
Important Properties– dsDNA is negatively charged due to its phosphate backbone
– Molecular weight affects gel electrophoresis migration rates
– Higher molecular weight DNA fragments migrate slower
Nucleotide Base RatiosThe ratio of Aand Gshould ideally be 1:1 in double-stranded DNA sequences

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