dna the genetic material
The bases in DNA do not pair randomly. When Erwin Chargaff looked closely at the bases in DNA, he noticed that the percentage of adenine (A) in the DNA always equaled the percentage of thymine (T), and the percentage of guanine (G) always equaled the percentage of cytosine (C). Watson and Cricks model explained this result by suggesting that A always pairs with T, and G always pairs with C in the DNA helix. Therefore A and T, and G and C, are "complementary bases," or bases that always pair together, known as a base-pair. The base-pairing rules state that A will always bind to T, and G will always bind to C (Figure 1.2). For example, if one DNA strand reads ATGCCAGT, the other strand will be made up of the complementary bases: TACGGTCA. Hydrogen bonds hold the complementary bases together, with two bonds forming between an A and a T, and three bonds between a G and a C. The chemical structure of DNA includes a chain of nucleotides consisting of a 5- carbon sugar, a phosphate group, and a nitrogen base. Notice how the sugar and phosphate group form the backbone of DNA (strands highlighted in pink), with the hydrogen bonds between the bases joining the two strands.
Nucleotides are composed of three main parts: 1. a phosphate group. 2. a 5-carbon sugar (deoxyribose in DNA). 3. a nitrogen-containing base. The only difference between each nucleotide is the identity of the base. There are only four possible bases that make up each DNA nucleotide: adenine (A), guanine (G), thymine (T), and cytosine (C).
the genetic code
The various sequences of the four nucleotide bases make up the genetic code of your cells. It may seem strange that there are only four letters in the alphabet of DNA. But since your chromosomes contain millions of nucleotides, there are many, many different combinations possible with those four letters. But how do all these pieces fit together? James Watson and Francis Crick won the Nobel Prize in 1962 for piecing together the structure of DNA. Together with the work of Rosalind Franklin and Maurice Wilkins, they determined that DNA is made of two strands of nucleotides formed into a double helix, or a two-stranded spiral, with the sugar and phosphate groups on the outside, and the paired bases connecting the two strands on the inside of the helix (Figure 1.1).
what is dna
DNA is the material that makes up our chromosomes and stores our genetic information. When you build a house, you need a blueprint, a set of instructions that tells you how to build. The DNA is like the blueprint for living organisms. The genetic information is a set of instructions that tell your cells what to do. DNA is an abbreviation for deoxyribonucleic acid. As you may recall, nucleic acids are a type of macromolecule that store information. The deoxyribo part of the name refers to the name of the sugar that is contained in DNA, deoxyribose. DNA may provide the instructions to make up all living things, but it is actually a very simple molecule. DNA is made of a very long chain of nucleotides. In fact, in you, the smallest DNA molecule has well over 20 million nucleotides.
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dna is made of long chains of nucleic acids.
a. true --> b. false
deoxyribose is the base in dna.
a. true --> b. false
which of the following lists the components of a nucleotide?
--> a) a phosphate group, a deoxyribose, a nitrogen-containing base b) a phosphate group, a ribose, a nitrogen-containing base c) a nitrogen group, a deoxyribose, a phosphate-containing base d) a nitrogen group, a ribose, a phosphate-containing base
complete the following sentence. the dna double helix has the _ and _ groups on the outside, and the ____ connecting the two strands on the inside of the helix.
a) bases, sugar, phosphate b) phosphate, base, sugar --> c) sugar, phosphate, bases d) none of the above
if one dna strand reads atcccgag, the other strand will be made up of the complementary bases ____.
a) tagggctg b) tacccgtc --> c) tagggctc d) atgggctc
complementary bases are connected by hydrogen bonds. how many hydrogen bonds connect a cytosine to a guanine?
a) 1 b) 2 --> c) 3 d) 4
who determined the percentage of adenine (a) in the dna always equaled the percentage of thymine (t), and the percentage of guanine (g) always equaled the percentage of cytosine (c).
a) james watson b) rosalind franklin and maurice wilkins --> c) erwin chargaff d) gregor mendel
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