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DNADeoxyribonucleic
Acid
• DNA is our genetic code.
• DNA is located in the nucleus of every living cell in our bodies.
• DNA is made up of smaller units called nucleotides.
• Nucleotides make segments on DNA called genes.
• Genes control traits that are inherited from parents.
Humans have 46 strands of DNA called
chromosomes or chromatin.
• Our chromosomes are arranged in 23 pairs.
• KARYOTYPE: Man-made arrangement of all chromosomes in a cell. (shown here)
We have over 30,000 functional genes located on our 46 chromosomes.
• For genes to express themselves as a trait, you need a gene pair.
• In each pair of chromosomes: 1 came from mom and 1 came from dad.
nucleotides DNA genes chromosomes
STRUCTURE OF A NUCLEOTIDE
• A nucleotide is the simplest monomer of a DNA molecule. It is composed of 3 parts:
1. A phosphate group
2. A deoxyribose sugar
3. A nitrogenous base
Nitrogenous Bases• Guanine = G
• Cytosine = C
• Adenine = A
• Thymine = T
• Uracil = U*
(*Replaces T in RNA only!)
Nitrogenous Bases
• C always pairs with G
• A always pairs with T**In RNA, A always pairs with U
• Bases are held together with hydrogen bonds
–A T (2 H bonds)
–C G (3 H bonds)
Chargaff’s Rules• Erwin Chargaff, American
biochemist
• The percentage of Guanine (G) and Cytosine (C) bases are almost equal in any DNA sample.
• The same is true for Adenine (A) and Thymine (T) bases.
Nitrogenous Bases
• Purines—
2 rings (A & G)
• Pyridimines—
1 ring (C & T)
THE DISCOVERY OF DNA
BACK THEN…
IT WAS A RACE!
JAMES WATSON & FRANCIS CRICK
• February 28, 1953
• Watson was only 25 years old!
• Crick was 37 years old
MAURICE WILKINS &ROSALIND FRANKLIN
• In 1962, Watson, Crick, and Wilkins were awarded the Nobel Prize for Physiology or Medicine
• "for their discoveries concerning the molecular structure of nucleic acids and its significance for information transfer in living material“
DNA vs. RNA
DNADeoxyribonucleic
acid
1. Double helix (larger in size)
RNARibonucleic acid
1. Single strand (smaller in size)
DNA2. Carries
instructions for genetic blueprint (directions for making proteins)
RNA2. Translates and
decodes genetic message and builds proteins
DNA3. Found in the
nucleus
4. Sugar = deoxyribose
RNA3. Found in the
nucleus, ribosomes, cytoplasm
4. Sugar = ribose
DNA5. Processes:
-replication
-transcription
6. 4 nitrogen bases
A, T, C, G
RNA5. Processes:
-transcription
-translation
6. 4 nitrogen bases
A, U, C, G
DNA7. One type
RNA7. Three types
-messenger-ribosomal-transfer
All made from DNAAll have different
structures to suit their functions
TYPES OF RNA
MESSENGER RNA
• Also called mRNA• Acts as a messenger (carries
genetic instructions)• Moves genetic instructions out
of nucleus after making a copy• (DNA can’t leave the nucleus!!!)
MESSENGER RNA
• Copy is carried to the ribosome to be translated
• Contains special base sequences called CODONS (a code word)
• CODON—Series of 3 bases
MESSENGER RNA• Shape of mRNA:
–Long, linear single strand
TRANSFER RNA
• Also called tRNA
• Two functions:
–Decoder/translator of genetic message
–Transports amino acids to ribosome for assemble of protein
TRANSFER RNA
• Has two important binding regions–ANTICODON: sequence of 3 bases
on tRNA that must be complementary of mRNA codon)
–Attachment site for AMINO ACID to bind
TRANSFER RNA• Shape of tRNA:
–Folded linear molecule, resembles a “t” shape or “cross”
RIBOSOMAL RNA
• Also called rRNA• Site where amino acids are
assembled into proteins needed by the cell
RIBOSOMAL RNA• Shape of rRNA:
–Makes up the structure of the ribosome
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