6274689
Genes
- Viruses
Annotations:
- Replicate - only in host cell Evolve - mutation/natural selection Only one kind of Nucleic Acid - Limited amount
- Structure
- Capsid
Annotations:
- - Protein shell that encloses the viral genome Protects from: - Physcial damage - Chemical damage - Enzymatic damage
- Envelope
Annotations:
- - Membrane derived from host cell - Only sometimes present (not all cases)
- Capsid
- Lifecycle
Annotations:
- 1. Attachment (to host) 2. Penetration 3. Uncoating (of capsid) 4. Transcription/Translation 5. Genome replication 6. Assembly 7. Release (from host)
- Replication
- ssDNA
- dsRNA
- dsDNA
- ssRNA
- Retrovirus
- +RNA HIV
- Virus
Annotations:
- Provides: > +RNA > Reverse Transcriptase (uses +RNA to made DNA) > Integrase (enzyme that enables genetic material to be integrated into host DNA) Makes ds DNA with host nucleotides & intergrates into host DNA
- Host
Annotations:
- Does transcription & translation
- Virus
- +RNA HIV
- Positive Sense
(+)
Annotations:
- RNA strand resembles mRNA
- Virus
Annotations:
- 'Injects' +RNA & RNA dependent RNA Pol (RdRP) RdRP copies +RNA to produce -RNA
- Host
Annotations:
- Uses -RNA for more +RNA Translates RNA into proteins (for capsids)
- Virus
- Negative Sense
(-)
Annotations:
- RNA strand resembles template RNA
- Virus
Annotations:
- 'Injects' -RNA RNA Pol (RdRP)
- Host
Annotations:
- Makes +RNA from -RNA Replicates RNA > -RNA for progeny virus > +RNA for translation Translates RNA into proteins
- Retrovirus
- ssDNA
- Lysogenic Cycle
Annotations:
- Phage remain dormant in a genome for an indefinite time before rejoining lytic cycle.
- Lytic Cycle
Annotations:
- Phages replicate. New viral particles are produced and released soon after infection, killing the host bacterium by lysis.
- Eukaryotes
- Cancer
Annotations:
- Loss of cell cycle control = cancer Cancer cells do not respond naturally to the body's control mechanisms.
- Tumor Suppressor
Genes
Annotations:
- Inhibit cell divisionStop working can lead to cancer
- p53
Annotations:
- >50% human cancer patients have mutated p53 genep53 prevents cells with damaged DNA from replicating
- Oncogenes
Annotations:
- Genes that actively promote cell division.If not turned off at right times, can lead to cancer.
- DNA
Annotations:
- Both strands of DNA can be either coding or template strands, depending on where the gene is. Interphase = dispersed in nucleus metaphase = super compacted
- Chromatin
Annotations:
- Compacted DNA wrapped around histones. Prokayotes don't have histones or chromatin
- Histones
Annotations:
- Small positively charged proteins that associate with negatively changed DNA backbones. DNA wraps around histones
- Chromosomes
Annotations:
- Unreplicated chromosome contains one continuous DNA molecule wrapped around histones. Replicated chromosome consists of two sister chromatids connected by a centromere.
- Locus
Annotations:
- A gene's address on a chromosome.
- Euchromatin
Annotations:
- - Relaxed - Transcribed
- Heterochromatin
Annotations:
- - Compact - Transcriptionly silent
- Euchromatin
- Regulation
Annotations:
- Regulation of gene expression can occur at: - Chromatin remodeling - Transcription - RNA processing - mRNA stability - Translation - Post-translation
- Chromatin Remodeling
- Histones
Annotations:
- Histone structure can be modified. - Histone acetylation associated with active chromatin - Histone/DNA methylation = inactive genes
- Acetylation
Annotations:
- - Allows histone to relax hold on DNA - Makes DNA available for transcription
- Methylation
Annotations:
- - Compacts histones & DNA - No transcription
- Acetylation
- Histones
- Transcriptional Control
Annotations:
- TF => Protein => Binds to DNA
- Basal/Core
Promoter
Annotations:
- - Essential for transcription - Required for binding of General TF - Specify/Recognise transcription start site & recruit other proteins required for initial of transcription (e.g. RNA Pol) - Must directly preceide gene
- General TF
Annotations:
- - 'General transcription factor' - Binds to Promoter - Recruit RNA Pol & other proteins for transcription
- Enhancer
Annotations:
- - Gene specific regions recognised & bound by Specific TF. - Provide high levels of cell type-specific gene expression. - Position does not matter. - Not always just 1 per gene (Can be shared/multiple)
- Specific TF
Annotations:
- - Gene-specific transcription factors - Bind to enhancers- Control enhancer strength (Activators or Repressors)
- Hox Genes/TF
Annotations:
- - Conserved family of transcription factors called Homeobox genes. - Encode proteins with a Homeodomain (helix-turn-helix protein domain -specifically structured part of a protein-) - Expressed early in embryo development in animals. Specify head-to-tail development (necessary for proper expression of thousands of genes required to build body parts).
- Homeotic
Mutations
Annotations:
- Mutation in which one body part is replaced by another
- MADS Box Genes
Annotations:
- - Encode transcription factors required for proper flower development.
- Post-Transcriptional Control
- Gene Splicing
Annotations:
- - Different exons from the same gene can be spliced together to give rise to different mRNAs and proteins. - Increases diversity of proteins
- Exons
Annotations:
- - Exon=Exciting=Keep
- Introns
Annotations:
- - Intron=Intern=Doesn't get paid=Doesn't get translated
- Exons
- mRNA
Degradation
Annotations:
- mRNA stability associated with poly(A) tail length. Shortened tail may trigger enzymes to remove 5' cap. Without cap, nucleus enzymes degrade RNA.
- Gene Splicing
- Translational Control
- Translational
Repression
- Example: Ferritin
Annotations:
- - Stores excess iron and releases it when blood iron levels drop. - Production controlled by iron (Fe) levels by translational repression.
- IRE
Annotations:
- - Iron-Response element. - Stops translation when bound by active binding protein.
- IRE Binding
Protein
Annotations:
- - Active => Binds to IRE => No translation - Inactive => bound to Fe => translation
- IRE
- Example: Ferritin
- Translational
Repression
- Post-Translational Gene
Silencing
- miRNA
Annotations:
- - MicroRNA (Non=coding RNA) - Transcribed from genes in DNA. Processed into smaller looped RNA fragments. - Influence stability of mRNA or blocks translation - execute post-transcriptional gene silencing
- Dicer
Annotations:
- In cytoplasm, Dicer enzyme removes hairpin loop of miRNA and transfers it to AGO protein complex forming RISC.
- AGO
Annotations:
- - Argonaute protein complex - Degrades one strand of ds miRNA.
- RISC
Annotations:
- - RNA-induced silencing complex - Guided by sequence of complimentarity of its miRNA to targets (mRNA transcripts) which are either cleaved or translation inhibited.
- miRNA
- Chromatin Remodeling
- Cell Differentiation
Annotations:
- Embryonic cell are provided with signals that indicate their location in the body.
- Signals
- Gene
Expression
- Cytoplasmic
Determinants
Annotations:
- Include proteins, RNA, organelles in cytoplasm of embryonic cell. Govern cell's gene expression & differentiation.
- Extrinsic
Annotations:
- Come from outside the cell. Membrane receptors detect substance & signal cascade begins that promotes or blocks gene transcription.
- Induction
Annotations:
- Differentiation trigger by extrinsic signals. Other cells with embryo produce inductive signals. Increase and/or decrease gene expression.
- Gene
Expression
- Structure
- Promoter
- Coding
Region
- Enhancer
- Promoter
- Chromatin
- Cancer
- Prokaryotes
Annotations:
- Very genetically diverse.
- Transcription
- Sigma
- RNA Polymerase
- Sigma
- Operon
- Operator
Annotations:
- Specific DNA sequence binds corresponding regulatory protein. Can 'turn on/off' genes by interfering with RNA Pol activity.
- Promoter
Annotations:
- Specific DNA sequence recognized by RNA polymerase. RNA polymerase binds to the promoter and transcription is initiated.
- DNA
- Operator
- The Lac Operon
- Catabolite Repression
Annotations:
- Repression of the synthesis of catabolic enzymes in order to use a preferred energy source first
- Negative Control
- Lactose+Repressor Binding
Annotations:
- Lactose must be present to prevent binding of the repressor to the operator
- Lactose
Absences
- Regulatory
Protein
- Turns off
Operator
- Turns off
Operator
- Regulatory
Protein
- Lactose Presence
- Regulatory
Protein
- Bound to lactose isomer
- Operator stays
on
- Operator stays
on
- Bound to lactose isomer
- Regulatory
Protein
- Lactose+Repressor Binding
- Positive Control
- Cyclin
AMP
Annotations:
- The level of cyclin AMP must be high enough so that the catabolite activator proteins (CAP) binds to the CAP binding site upstream of the promoter
- CAP
Annotations:
- - 'Catabolite activator protein' - Regulatory protein- Binds to CAP binding site upstream of promoter with high enough levels.
- Activation
- Repression
- Cyclin
AMP
- Catabolite Repression
- The Trp Operon
Annotations:
- - 'The Tryptophan Operon' - On by default - Tryptophan binds to repressor protein = Off - Repressor active only in presences of corerepressor (Tryptophan)
- Trp
Absence
- Trp
Presence
- DNA Technology
- Cloning
Vectors
Annotations:
- Molecules used to capture, amplify and express foreign DNA. Uses Restriction Enzymes
- Restriction
Enzymes
Annotations:
- 'Cuts' DNA backbone in specific spots on specific DNA recognision sequence depending on the enzyme - Found in bacteria = defense mechanism against viral infection
- 'Sticky'
Ends
- DNA ligase
Annotations:
- Is used to repair backbone and properly connect sticky ends
- DNA ligase
- Blunt
Ends
Annotations:
- No overhang
- Bacteria
Annotations:
- Restriction enzymes = defense mechanism against viral infection. Protects own DNA with methylase
- Plasmids
Annotations:
- Prefer plasmids: - Small - Independent replication - strong promoter - numerous restriction enzyme recognition sites
- PCR
Annotations:
- - Polymerase Chain Reaction - (The thing we did in our bitter gene prac)
- Cloning
Vectors
Media attachments
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