Human Genetics and Molecular Biology PDF

Summary

This document is a lecture presentation on Human Genetics and Molecular Biology. It details the structure, function, and different forms of DNA. The presentation also includes questions.

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Human Genetics and
Molecular Biology

02/10/2024 Dr. Ayat sayed 1
 DNA Site

In chromosome
inside the
nucleus
Eukaryotes
In chromosome
inside mitochondria
Site
non-chromosomal
(Plasmids)
Prokaryotes non chromosomal DNA
In the cytoplasm)

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 DNA Function

Store genetic information
transmit it to next generation (Through replication)
Control protein synthesis inside each cells to be able to perform its
physiologic functions (Through transcription and translation)

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 DNA & NUCLEOTIDE STRUCTURE

DNA is a polymer of deoxynucleotides
linked together by phosphodiester
bonds
Each nucleotide consists of 3
components:

a nitrogenous base (purine or
pyrimidine )

a 5-carbon sugar (deoxy-pentose)

Phosphate.

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 DNA & NUCLEOTIDE STRUCTURE
Purines
are heterocyclic 2 ring structure.
The purines commonly found in nucleic acids are adenine (A) and
guanine (G)
Both adenine (A) and guanine (G) are found in DNA and RNA.
Other purine metabolites, not usually found in nucleic acids, include
xanthine, hypoxanthine, and uric acid.
Pyrimidines( CUT)
One ring structure.
Cytosine (C) is present in both DNA and RNA.
uracil (U) is found only in RNA.
Thymine (T) is usually found only in DN

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 DNA & NUCLEOTIDE STRUCTURE

Pentose sugar
If the pentose is deoxyribose, the nucleic acid is DNA (deoxyribonucleic acid).

If the pentose is ribose, the nucleic acid is RNA (ribonucleic acid).

Phosphate
One or more phosphate groups is attached to the 5′ carbon of the pentose sugar
Nucleosides and
Nucleotides
Nucleosides are formed
by covalently linking a
base to the number 1
carbon of a sugar.
Nucleotides are formed
when 1 or more
phosphate groups is
attached to the 5′
carbon of a nucleoside.
Nucleoside di- and
triphosphates are high-
energy compounds like
ATP and GTP

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 DNA STRUCTURE
Primary Secondary Tertiary
Structure Structure Structure
The sequence of bases Double stranded Chromatin
in the nucleic acid chain DNA
gives the primary
structure of DNA.

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 Primary structure of DNA
The sequence of bases in the nucleic acid chain gives the primary
structure of DNA.
DNA is formed of polymers of nucleotides (dNTPs)( d.AMP , d.GMP ,
d.TMP , d.CMP)
The nucleotides are covalently bounded by 3`,5`phosphodiester
bond.
Polarity: the strand has 2 ends , one end (5`end) with free
phosphate and the other (3`end)with free (OH).
The base sequence of a nucleic acid strand is written by convention,
in the 5′→3′
5′-TCAG-3′ or TCAG

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 Secondary structure of DNA
Double stranded linear
Two DNA strands are annealed to each other according
to the base paining complementary.
Base complementary (Chargaff ’s rules) means that
A always pairs with T (2 hydrogen bonds),
G always pairs with C (3 hydrogen bonds).
So that
the amount of A equals the amount of T,
the amount of G equals the amount of C.
Thus, total purines equals total pyrimidines.
The 2 strands are antiparallel (opposite in direction)
One strand is 5′→3′, and the other is 3′→5′

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Watson and Crick double helix model
The 2 DNA strands wind around each other forming right
handed double helix (B form).
The hydrophilic sugar-phosphate backbone of each chain
is outside of the chain
The hydrophobic bases are stacked inside of the helix.
Each turn is 10.5 base in length and 2 nm width
On its exterior surface, the double helix of DNA contains
two grooves
The major grooves act as a binding sites for regulatory
proteins
Minor groove is for histone binding

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 Compare between A,B,Z forms of DNA.

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 Different forms of DNA

Parameters A -DNA B-DNA Z-DNA
Direction of helical
Right Right Left
rotation

Residues per turn of
11 10 12 base pairs
helix

Major groove narrow and deep wide and deep Flat

Comments Rare, the dehydrated most prevalent within cells biologic function is unknown,
form of B-form (under at physiological conditions but may be related to gene
lower hydration and (low salt and high degree of regulation. in areas rich in G and
higher salt content hydration). C

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 Chromatin is the 3ry structure in which DNA interact with the DNA-
binding proteins and packed inside the cells

There are 2 classes of DNA-binding proteins involved in
maintaining the compact structure of chromatin:

a- Histones b- Non-histones

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 A- HISTONES
The major class of DNA-binding proteins
5 types: H1, H2A, H2B, H3, H4.
Histones are rich in basic amino acids lysine and arginine, so they are positively charged on the
proteins.
They form ionic bonds with the negatively charged DNA.

Functions of histones:
condensation of the DNA into more compact chromosomes.

Protect the DNA from digestion by exonucleases.

Regulatory role

Histones in are not present in prokaryotes
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 Nucleosome Structure
Nucleosome
Nucleosome is the basic packaging unit of chromatin
results from binding of DNA to histones generates 10 nm
structure.
Formed of
1-DNA core:
140-150 Base pair (bp) of supercoiled DNA
8 histones (2 molecules of H2A, H2B, H3,
H4).
2- Linking region:
20-200 bp of DNA that joins one
nucleosome core to the next
1 molecule of histone (H1) which protects
the linker DNA from digestion by nucleases.

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 Chromatin Structure
▪ A series of nucleosomes is sometimes
called “beads on a string” or a 10nm
chromatin fiber.
▪ This fiber is then coiled again forming
the 30 nm fiber.
▪ The later is organized into loops to form
300 nm fiber.
▪ Further condensation occurs to
eventually form the 700 nm chromatid
▪ Finally, the 1400 nm chromosome is
formed.
▪ Each eukaryotic chromosome contains
one linear molecule of double-stranded
DNA.
 Chromatin
The DNA in the nucleus exists in two forms:
Heterochromatin :
more compact,
stain dense
Gene poor (AT rich)
transcriptionally less active the genes
are silenced by methylation,
Seen in interphase and mitotic chromosomes
It is not sensitive to digestion by DNAase (nuclease)
Euchromatin :
less compact structure,
Stain light More sensitive to Less sensitive to
transcriptionally more active, nucleases nucleases
Gene rich ( CG rich)
Generally corresponds to the nucleosomes (10-nm fibers)
loosely associated with each other or (looped 300-nm
fibers).
It is sensitive to digestion by DNAase (nuclease)
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 Types of DNA

Double stranded linear: Eukaryotic
nuclear chromosome.

Double stranded circular: Mitochondrial,
bacterial chromosome, plasmid, viral and
chloroplast.

Single stranded circular DNA: (small
viruses)

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 Mitochondrial DNA
It is a circular double stranded DNA of about 16 kb length
It codes for few number of genes as enzymes involved in energy production and
electron transport chain.
5-10 times mutation rate than nuclear DNA
It is maternally inherited because the ovum contains hundreds or thousands of
mitochonderia compared to the sperm.
 Explain Denaturation/Renaturation of DNA

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Definition:
Double-stranded DNA can be denatured (separated) by conditions
that disrupt hydrogen bonding, resulting in “melting” of the double
strand into two single strands
The covalent 3-5 phosphodiester bonds are not broken in this
process so the sugar phosphate backbone is maintained.
Desaturating factors:
Heat,
alkaline pH,
chemicals such as formamide and urea

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Melting temperature (TM):
Temperature at which 50% of the DNA molecule exist as single strands is called Tm.
The TM differ according to base composition of the DNA molecule
High TM value in DNA molecule rich in C-G base pair
Renaturation (reannealing)
Denatured single-stranded DNA can be renatured (annealed)
If the denaturing condition is slowly removed

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 Denaturation and Renaturation
of DNA

Such renaturation or annealing of
complementary DNA strands is an
important Step in
Polymerase chain reaction

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 Endo-nuclease and Exo-nuclease enzymes

Nucleases are enzymes that
hydrolyze nucleic acids
Exonucleases remove
nucleotides from the 5′ or the
3′ end of a nucleic acid.
Endonucleases cut within
the nucleic acid and release
nucleic acid fragments.

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 The width of the double helix in B-form DNA in nm is
(A) 1
(B) 2
(C) 3
(D) 4

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DNA does not contain
(A) Thymine
(B) Adenine
(C) Uracil
(D) Deoxyribose

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IN DNA G-C pairs by
(A) 1 Hydrogen bond
(B) 2 Hydrogen bonds
(C) 3 Hydrogen bonds
(D) 4 Hydrogen bonds

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IN DNA A-T pairs by
(A) 1 Hydrogen bond
(B) 2 Hydrogen bonds
(C) 3 Hydrogen bonds
(D) 4 Hydrogen bonds

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The width (helical diameter) of the double helix in B-form DNA is
(A) 1 nm
(B) 2 nm
(C) 3 nm
(D) 4 nm

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The number of base pair in a single turn of B-form DNA molecule is
(A) 4
(B) 8
(C) 10
(D) 12

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Left handed double helix is present in
(A) Z-DNA
(B) A-DNA
(C) B-DNA
(D) None of these

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In a DNA molecule the thymine concentration is 30%, the guanosine
concentration will be
(A) 10%
(B) 20%
(C) 30%
(D) 40%

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IN a DNA molecule, the guanosine content is 40%, the adenine content will
be
(A) 10%
(B) 20%
(C) 30%
(D) 40%

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In double stranded DNA molecule
(A) Guanine content does not equal cytosine content
(B) Adenine content does not equal thymine content
(C) Adenine content equals uracil content
(D) Guanine content equals cytosine content

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In a DNA molecule the thymine concentration is 30%, the guanosine
concentration will be
A. 10%
B. 20%
C. 30%
D. 40%

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Exercise: Using Chargaff’s Rules
In dsDNA (ds = double-stranded)
% A = % T (% U)
%G=%C
% purines = % pyrimidines
A sample of DNA has 30% T;
what is the % G?
30% T + 30% A = 60%
therefore, % C + % G must total 40%
20% C and 20% G
Ans: 20% G

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 How many types of histone molecules are found in nature?
a) 3
b) 4
c) 5
d) 6

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Melting temperature of DNA is increased by its
(A) A and T content
(B) G and C content
(C) Sugar content
(D) Phosphate content

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