Nucleotides, Nucleic Acids, and Heredity Flashcards
is the transfer of characteristics, anatomical as well as biochemical, from generation to generation.
Heredity
From the end of the 19th century, biologists suspected that the transmission of hereditary information took place in the ______________, more specifically in structures called ___________
- nucleus
- chromosomes
The information that determines external characteristics (red hair,
blue eyes) and internal characteristics (blood group, hereditary diseases)
was thought to reside in ______ located inside the chromosomes.
genes
Chemical analysis of nuclei showed chromosomes are made up largely of proteins called _______ and ______
- histones
- Nucleic acids
By the 1940s, it became clear that ___________ carry the hereditary information.
deoxyribonucleic acids (DNA)
Who discovered that deoxyribonucleic acid (DNA) carries the hereditary information
Oswald Avery
Where are genes located?
DNA
not all genes lead to the
production of protein, but all genes do lead to the production of what another type of nucleic acid?
ribonucleic acid (RNA)
Other work in the 1940s demonstrated that each gene
controls the manufacture of _________
one protein
Two kinds of nucleic acids are found in cells:
- ribonucleic acid (RNA)
- deoxyribonucleic acid (DNA)
The expression of a gene in terms of an enzyme
protein led to the study of __________ and its control.
protein synthesis
Nucleic Acid present in the chromosomes of the nuclei of eukaryotic cells
DNA
Nucleic acid that is not found in the chromosomes, but rather,
is located elsewhere in the nucleus and even outside the nucleus, in the cytoplasm
RNA
Both RNA and DNA are polymers built from monomers
called _________
nucleotides
A nucleotide is composed of:
A base, a monosaccharide, and a phosphate
The bases of found in DNA and RNA are ___________________
heterocyclic aromatic amines
Two kinds of bases found in DNA and RNA
- Purines
- Pyrimidines
Purine bases:
- adenine (A)
- guanine (G)
Pyrimidine bases:
- cytosine (C)
- thymine (T)
- uracil (U)
Base that can only be found in RNA
Uracil
Base that can only be found in DNA
Thymine
The sugar component of RNA
D-ribose
The combination of sugar and base
nucleoside
The sugar component of DNA
2-deoxy-D-ribose
A compound that consists of D-ribose or 2-deoxy-D-ribose bonded to a purine or pyrimidine base by a B-N-glycosidic bond.
Nucleoside
In a nucleoside, The purine bases are linked to ____ of the monosaccharide through ___
- C-1
- N-9
What do you call the bond that links the sugar and base in nucleosides
B-N-glycosidic bond
The nucleoside made of adenine and ribose
adenosine
In nucleosides, The pyrimidine bases are linked to ____ of the monosaccharide through
their ___
- C-1
- N-1
When a phosphoric acid
forms a phosphate ester bond with a nucleoside
nucleotide
A nucleoside in which a molecule of phosphoric acid is esterified with an -OH of the monosaccharide, most commonly either at the 3’or the 5’-OH.
Nucleotide
serves as a common currency into which the energy gained from food is converted and stored
adenosine 5’-triphosphate (ATP)
A chain of nucleotides
nucleic acid
Nucleic acids can be divided into two parts:
Primary Structure
- the backbone of the molecule
- the bases that are the side-chain groups
Their primary structure is the _________ of nucleotides.
Primary Structure
sequence
The backbone in DNA consists
of alternating ________ and _________
Primary Structure
- deoxyribose
- phosphate groups
Each phosphate group is
linked to the ________ of one deoxyribose unit and simultaneously to the
_______ of the next deoxyribose unit
Primary Structure
- 3’ carbon
- 5’ carbon
each monosaccharide unit forms a phosphate ester at the ________ and another at the _______.
Primary Structure
- 3’ position
- 5’ position
For nucleic acids, primary structure is the sequence of
nucleotides, beginning with the nucleotide that has the ___________
Primary Structure
free 5’ terminus
How do you read the primary structure of DNA strand
Primary Structure
The strand is read from the 5’ end to the 3’ end.
provides structural stability for the DNA and RNA molecules.
Primary Structure
backbone
, Erwin Chargaff (1905–2002) showed that:
Primary Structure
In terms in quantity in moles:
- adenine = thymine
- guanine = cytosine
who established the
three-dimensional structure of DNA?
Secondary Structure
James Watson and Francis Crick (1953)
Watson and Crick concluded that DNA is composed of two strands entwined around each other in a __________
Secondary Structure
double helix
The ordered arrangement of nucleic
acid strands.
Secondary Structure
Secondary structure
A type of 2° structure of DNA in which two polynucleotide strands are coiled around each other in a screw-like fashion.
Secondary Structure
Double helix
In the DNA double helix, the two polynucleotide chains run in opposite directions (which is called _____________)
Secondary Structure
antiparallel
at each end of the double helix, there is one ____ and one ____ terminus.
Secondary Structure
- 5’-OH
- 3’-OH
The sugar–phosphate backbone is on the _______, exposed to the aqueous environment, and the bases point ______-.
Secondary Structure
- outside
- inward
The bases are ________, so they try to avoid contact with water
Secondary Structure
hydrophobic
For each adenine on one chain, a thymine is aligned opposite it on the other chain;each guanine on one chain has a cytosine aligned with it on the other chain
Secondary Structure
Chargaff’s rule
A-T and G-C are called?
Secondary Structure
complementary base pairs.
The bases are paired according to ___________
Chargaff’s rule
