molecular testing and clinical diagnosis molecular biology review part i slides 1-19
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Molecular Testing and Clinical Diagnosis
Molecular biology reviewPart I
Slides 1-19
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Objectives:At the end of the lesson the student should be able to:
• Explain basic nucleic acid structure (DNA, mRNA, tRNA, rRNA), composition and function (C2)
• Compare DNA and RNA similarities and differences (C3)• Explain and describe bonding pattern and specificity of the
nitrogen bases (C2)• Locate of DNA and forms of RNA in prokaryotic and eukaryotic
cells (C2)• Explain the processes of replication, transcription, and
translation (C2)• Describe and evaluate target sequences for molecular testing
(C3)
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Cell diversity depends on:
• Genome– genus species– composition
• Gene expression
• Protein products– structural– functional
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Prokaryotes• Simple unicellular organisms
• bacteria (eubacteria, archaebacteria)
• no internal organelles
• circular strand of DNA
• reproduce by fission
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Gene control
• Allows single cells to adjust to nutritional environment
• coupled transcription-translation occurs
• which decrease cell cycle time
• can take on external DNA through– Conjugation, transduction, transformation
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Eukaryotic cells• Contain internal
organelles– membrane bound
structures separate specific regions from the rest of the cytoplasm
• include:– Fungi– Algae– Protozoa– plants– animals
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Common organelles include
• nucleus
• smooth and rough endoplasmic reticulum
• golgi
• lysosomes, peroxisomes
• some organisms have chloroplasts
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Organelles• Separate regions with unique function
– nucleus• replication (DNA made into DNA)• transcription (DNA made into RNA
– cytoplasm• translation (mRNA into Protein)
• protect components from digestive enzymes in cytoplasm
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Nucleic Acid Composition
• Sugar– deoxyribose DNA– ribose RNA
• Nucleotide base– Adenine, Guanine,
Cytosine, Thymine – and in RNA, Uracil
• Phosphate
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DNA Structure• Two strands of nucleic acid in
opposite orientation• P-sugar backbone on the outside
of ladder• nucleotide bases in the middle
– hydrophobic interaction• P-sugar bonds are covalent• nucleotide base pair bonds are
Hydrogen bonds• Note negative charge on P groups
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• DNA strands are held precisely together in opposite orientation based upon sugar bonds involved in Phospho- di-ester bond– 5` to 3` on one side– 3` to 5` on the other side– bases are flipped or opposite
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Opposite Orientation Allows:• Aligns nucleotide bases for hydrogen bonding• hydrogen bonding is :
– a weak association between an electronegative atom (O or N) and a hydrogen atom
– the hydrogen atom has an overall positive charge since its electron is utilized in the covalent bond
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Nucleotides bind specifically
• Adenine can only align and juxtaposition with thymine or uracil to form 2 hydrogen bonds
• Cytosine can only align and juxtaposition with guanine to form 3 hydrogen bonds
• Thermodynamically G-C pairs are stronger that A-T or A-U pairs due to the 3:2 hydrogen bonds
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Overall Structure of DNA
• Double helix
• Opposite orientation
• Held together by H bonds and hydrophobic interaction of nucleotidesC only
• Inherent within the ACGT order of DNA is the specified protein product
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Cell Cycle - G1, S, G2, M phases• G1 lag phase- cell growth• S phase- DNA is
replicated prior to division (DNA to DNA: replication)
• G2 lag phase- proteins are synthesized (DNA made into RNA: transcription and mRNA made into protein: translation)
• M phase-mitosis cell division
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DNA Replication-S Phase
• DNA made into DNA: replication
• Complex process requiring many enzymes, nucleosides bases and ATP
• DNA must open up-helicase
• DNA must stay open-ssDNA binding protein
• DNA must be copied exactly-DNA polymerase
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DNA polymerase• Only adds nucleotides in the 5` to
3` direction• leading strand production-
complimentary strand is produced in a continuous strand
• lagging strand production-complimentary strand is produced in a discontinuous manner– Okazaki fragments– require RNA primers and ligase
enzyme to link fragments together and remove RNA primers
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• DNA polymerase– synthesize DNA in the 5` to 3` direction
• Ligase– attaches two Okazaki fragments– 5` P to 3` OH
• Once DNA replication is complete cells enter G2 phase and prepare to divide by mitosis