Unit 1 : DNA i. RNA
NUCLEIC ACIDS
→
organic molecules
→
control synthesis of proteins in All living things
→
stores and transfers genetic information .
/
2 TYPES
DNA RNA
:
DNA (deoxyribonucleic acid) .
Double helix .
Single strand
RNA ( n.bonuaeicaa.gg g. deoxyribose g. ribose
. .
A C. G- T A,C , G. U
' '
, ,
A =T G- =L it
and
any sequence ratio
'
DNA
location :
nucleus →
chromosomal DNA
outside nucleus → extranuclear DNA [mitochondria / chloroplasts]
Chromosomes i. genes
•
Chromosome Thread : -
like
,
composed of DNA , wrapped around histones (protein)
Only visible in dividing stage
>
DNA
¥889080 qg€EÉ8o% >
histone
structure of a chromosome
•
Gene : A short
segment of DNA that codes for a
particular protein
↳ determines characteristics of
organism .
Scientists :B James Watson i. Francis Crick =
formulated double helix structure .
* Erwin chargaff Equal number = of A bases to T and C bases to G- in DNA molecule .
->
Base pairing
to Maurice Wilkens i. Rosalind Franklin = ✗ ray of chromosome
-
→ helix shape rule !
↳ helped Watson i. trick .
Structure : Nucleotides :
f p
B
S
Sugar
→
→
Giant molecule molecule [ Deoxyribose]
- pentose sugar
Phosphate phosphatedi ester
→
→
2 strands
bond
'
→
Double helix Nitrogenous base
→
- ,
t
anti Adenine
}
→
parallel
°
-
→
Polymer
.
Thymine
nucleotides cytosine
} A i. G- Purines Large
•
→
monomers : = >
•
Gaunine C IT =
Pyrimidines >
Small
, Formation of DNA :
Sugar phosphate 1 strand complement of the other !
sugar + phosphate
→
I . + =
2 strands is
-
,
alternating in strands frame
✓
2.
Rung =
2 bases link by weak
hydrogen bonds (broken by enzymes) nucleotides
[1 pyrimidine]
large purine + 1 small u
AKA BASE PAIRS
:
polynucleartides
DÑA
A -7
}
° →
2 It bonds of bases to form base pairs
equal number
-
.
°
G- C - →
3 H bonds
-
'
. . A =
T i. G- =L u
wraps around histone
-
Base pairs occur in any sequence u
→
sequence of bases =
code →
instructions for protein synthesis chromatin
↳ I
' ' '
genetic
'
code or code of life
condense +
super coil
Mitochondrial DNA (mtDNA) v
chromosomes
-
Not related to chromosomal DNA
-
Shorter + circular
'
Genes code for
enzymes
→ cellular
respiration .
Endosymbiosis (origin of mitochondria) bacterium as prey entered single cell avoided digestion independent
'
→ → →
cell
(own DNA)
'
Relatedness : -
mitochondria of sperm @ base of tail
maternal mitochondria ian
'
zygote only contains :
-
.
.
↳ used to trace maternal lines [ mtDNA corresponds = more closely related)
-
mtDNA =
no mutations or
changes in meiosis [ relatively unchanged]
µ '
mitochondria
Role of DNA
•
GENES :
has specific sequence of
nitrogenous bases
↳ of amino acids that will form a
determines sequence i. type protein
NON CODING DNA No instructions for protein synthesis
°
-
: -
junk
'
-
Not DNA
-
used in DNA fingerprinting
→
non -
coding DNA =
different for everyone .
lies between chromosome
genes
-
✓ on .
functions : -
Regulates { controls expression of
genes in coding DNA
'
off
'
When / Where
'
-
genes are switched in or
-
Protects genes from mutations
controls process of copying genes during transcription
-
.
, Replication of DNA
MMhthiainpssibe-andsgfhi.si one
-
¥§0g•¥§0 )
-
chromatid
a
Duplication of DNA [2 IDENTICAL copies] *
⑥ replication
centromere
Takes place Interphase (cell performs activities)
§
→
normal
9
a
chromosome duplicates → 2 identical chromatids
µ ☒&
↳ held together by centromere DNA
chromosome Chromosome
before after
sister chromatids
Process i. Double helix unwinds into 2 strands
( identical)
f)
⑧
2. Weak H bonds break
-
: strands unzip
3. Free floating nucleotides complementary = strands for original strands 5. 2 chromatids
U
.
↳
joined by enzymes [ DNA polymerase] make 1 chromosome .
4.
Original strand =
template chromosome
-
: strand now =
'
I new
'
strand i. 1
original strand .
( still identical) →
Semi conservative replication
-
Importance →
Mitosis : mother cell ÷ =
2 identical
daughter cells
d
identical info
makes copies of DNA :
daughter cell =
same genetic .
RNA
location : -
nucleus & cytoplasm Nucleotides :
part of ribosomes ribose
Sugar
-
• -
•
Phosphate
structure single strand
Nitrogenous bases A. G. C. Uracil
:
- ° :
Polymer ↳ can
occur in
any ratio
-
→
monomers =
nucleotides
cytoplasmic streaming
→
moves with
3 types of RNA
i. Mess anger RNA (mRNA)
-
single strand
-
forms in nuclear plasm (DNA template)
* carries
genetic code from DNA in nucleus to
ribosomes in cytoplasm .
&yf
2. Transfer RNA (tRNA)
Single strand that loops
-
cytoplasm
-
3 exposed bases anticodon
-
=
* Picks up amino acids in
cytoplasm and anticodon a
-
transfers them to ribosomes for protein synthesis .
Structure of tRNA
3. Ribosomal RNA (rRNA)
-
single strand
part of ribosome controls protein synthesis
-
+ .
helps ribosome read codon
-
NUCLEIC ACIDS
→
organic molecules
→
control synthesis of proteins in All living things
→
stores and transfers genetic information .
/
2 TYPES
DNA RNA
:
DNA (deoxyribonucleic acid) .
Double helix .
Single strand
RNA ( n.bonuaeicaa.gg g. deoxyribose g. ribose
. .
A C. G- T A,C , G. U
' '
, ,
A =T G- =L it
and
any sequence ratio
'
DNA
location :
nucleus →
chromosomal DNA
outside nucleus → extranuclear DNA [mitochondria / chloroplasts]
Chromosomes i. genes
•
Chromosome Thread : -
like
,
composed of DNA , wrapped around histones (protein)
Only visible in dividing stage
>
DNA
¥889080 qg€EÉ8o% >
histone
structure of a chromosome
•
Gene : A short
segment of DNA that codes for a
particular protein
↳ determines characteristics of
organism .
Scientists :B James Watson i. Francis Crick =
formulated double helix structure .
* Erwin chargaff Equal number = of A bases to T and C bases to G- in DNA molecule .
->
Base pairing
to Maurice Wilkens i. Rosalind Franklin = ✗ ray of chromosome
-
→ helix shape rule !
↳ helped Watson i. trick .
Structure : Nucleotides :
f p
B
S
Sugar
→
→
Giant molecule molecule [ Deoxyribose]
- pentose sugar
Phosphate phosphatedi ester
→
→
2 strands
bond
'
→
Double helix Nitrogenous base
→
- ,
t
anti Adenine
}
→
parallel
°
-
→
Polymer
.
Thymine
nucleotides cytosine
} A i. G- Purines Large
•
→
monomers : = >
•
Gaunine C IT =
Pyrimidines >
Small
, Formation of DNA :
Sugar phosphate 1 strand complement of the other !
sugar + phosphate
→
I . + =
2 strands is
-
,
alternating in strands frame
✓
2.
Rung =
2 bases link by weak
hydrogen bonds (broken by enzymes) nucleotides
[1 pyrimidine]
large purine + 1 small u
AKA BASE PAIRS
:
polynucleartides
DÑA
A -7
}
° →
2 It bonds of bases to form base pairs
equal number
-
.
°
G- C - →
3 H bonds
-
'
. . A =
T i. G- =L u
wraps around histone
-
Base pairs occur in any sequence u
→
sequence of bases =
code →
instructions for protein synthesis chromatin
↳ I
' ' '
genetic
'
code or code of life
condense +
super coil
Mitochondrial DNA (mtDNA) v
chromosomes
-
Not related to chromosomal DNA
-
Shorter + circular
'
Genes code for
enzymes
→ cellular
respiration .
Endosymbiosis (origin of mitochondria) bacterium as prey entered single cell avoided digestion independent
'
→ → →
cell
(own DNA)
'
Relatedness : -
mitochondria of sperm @ base of tail
maternal mitochondria ian
'
zygote only contains :
-
.
.
↳ used to trace maternal lines [ mtDNA corresponds = more closely related)
-
mtDNA =
no mutations or
changes in meiosis [ relatively unchanged]
µ '
mitochondria
Role of DNA
•
GENES :
has specific sequence of
nitrogenous bases
↳ of amino acids that will form a
determines sequence i. type protein
NON CODING DNA No instructions for protein synthesis
°
-
: -
junk
'
-
Not DNA
-
used in DNA fingerprinting
→
non -
coding DNA =
different for everyone .
lies between chromosome
genes
-
✓ on .
functions : -
Regulates { controls expression of
genes in coding DNA
'
off
'
When / Where
'
-
genes are switched in or
-
Protects genes from mutations
controls process of copying genes during transcription
-
.
, Replication of DNA
MMhthiainpssibe-andsgfhi.si one
-
¥§0g•¥§0 )
-
chromatid
a
Duplication of DNA [2 IDENTICAL copies] *
⑥ replication
centromere
Takes place Interphase (cell performs activities)
§
→
normal
9
a
chromosome duplicates → 2 identical chromatids
µ ☒&
↳ held together by centromere DNA
chromosome Chromosome
before after
sister chromatids
Process i. Double helix unwinds into 2 strands
( identical)
f)
⑧
2. Weak H bonds break
-
: strands unzip
3. Free floating nucleotides complementary = strands for original strands 5. 2 chromatids
U
.
↳
joined by enzymes [ DNA polymerase] make 1 chromosome .
4.
Original strand =
template chromosome
-
: strand now =
'
I new
'
strand i. 1
original strand .
( still identical) →
Semi conservative replication
-
Importance →
Mitosis : mother cell ÷ =
2 identical
daughter cells
d
identical info
makes copies of DNA :
daughter cell =
same genetic .
RNA
location : -
nucleus & cytoplasm Nucleotides :
part of ribosomes ribose
Sugar
-
• -
•
Phosphate
structure single strand
Nitrogenous bases A. G. C. Uracil
:
- ° :
Polymer ↳ can
occur in
any ratio
-
→
monomers =
nucleotides
cytoplasmic streaming
→
moves with
3 types of RNA
i. Mess anger RNA (mRNA)
-
single strand
-
forms in nuclear plasm (DNA template)
* carries
genetic code from DNA in nucleus to
ribosomes in cytoplasm .
&yf
2. Transfer RNA (tRNA)
Single strand that loops
-
cytoplasm
-
3 exposed bases anticodon
-
=
* Picks up amino acids in
cytoplasm and anticodon a
-
transfers them to ribosomes for protein synthesis .
Structure of tRNA
3. Ribosomal RNA (rRNA)
-
single strand
part of ribosome controls protein synthesis
-
+ .
helps ribosome read codon
-
