37. Gene and regulation of the gene activity. Operon and its functions.

Question 1

Gene is a part of the DNA molecule occupying a certain chromosome locus that induces functional units, mutation units and recombination units.
It’s the basic unit of heredity, a linear sequence of nucleotides of DNA that provides the coded instructions for synthesis of RNA, which when translated into proteins, leads to the expression of hereditary character.

Answer 1

Gene is a part of the DNA molecule occupying a certain chromosome locus that induces functional units, mutation units and recombination units.
It’s the basic unit of heredity, a linear sequence of nucleotides of DNA that provides the coded instructions for synthesis of RNA, which when translated into proteins, leads to the expression of hereditary character.

Question 2

Control of gene expression in prokaryotes:

• transcription and translation coupled .’. gene regulation is coupled through transcription

Answer 2

Control of gene expression in prokaryotes:

• transcription and translation coupled .’. gene regulation is coupled through transcription

Question 3

Definition: Operon is a set of genes that are adjacent to one another in the genome and are coordinately controlled, all of them are turned on or off. When RNA polymerase transcribes the operon, a polycistronic mRNA is produced, that codes for all the proteins of the operon

Answer 3

Definition: Operon is a set of genes that are adjacent to one another in the genome and are coordinately controlled, all of them are turned on or off. When RNA polymerase transcribes the operon, a polycistronic mRNA is produced, that codes for all the proteins of the operon

Question 4

Operon is a functioning unit of genomic DNA containing a cluster of genes under the control of a promotor. Operon control can be positive or negative, by either induction or repression that enables organisms to regulate the expression of various genes depending on environmental conditions.

Answer 4

Operon is a functioning unit of genomic DNA containing a cluster of genes under the control of a promotor. Operon control can be positive or negative, by either induction or repression that enables organisms to regulate the expression of various genes depending on environmental conditions.

Question 5

Operons contain promotor regions where proteins bind and facilitate or inhibit the binding of RNA polymerase

Answer 5

Operons contain promotor regions where proteins bind and facilitate or inhibit the binding of RNA polymerase

Question 6

Prokaryotes - regulation occurs mainly at the transcriptional level through operons

Answer 6

Prokaryotes - regulation occurs mainly at the transcriptional level through operons

Question 7

Eukaryotes - regulation may occur by modification of DNA or at the level of transcription and translation

• genes may be deleted or amplified, rearranged or methylated
• histones may non-specifically repress transcription of genes. Inducers cause genes to be activated
• synthesis of some proteins can also be regulated at the level of translation during initiation and elongation

Answer 7

Eukaryotes - regulation may occur by modification of DNA or at the level of transcription and translation

• genes may be deleted or amplified, rearranged or methylated
• histones may non-specifically repress transcription of genes. Inducers cause genes to be activated
• synthesis of some proteins can also be regulated at the level of translation during initiation and elongation

Question 8

Inducible (lac operon):

• for metabolic pathways that are usually “off” When lactose is absent:
• repressor protein attaches to operator
• RNA polymerase cannot transcribe structural genes lac 2, lac Y + lac A to an enzyme that digests lactose, because cannot attach to promotor
• Normal state

Answer 8

Inducible (lac operon):

• for metabolic pathways that are usually “off” When lactose is absent:
• repressor protein attaches to operator
• RNA polymerase cannot transcribe structural genes lac 2, lac Y + lac A to an enzyme that digests lactose, because cannot attach to promotor
• Normal state

Question 9

When lactose is present:

• inducer binds to repressor on its allolactose site
• repressor cannot bind to promotors
• lactose digested

Answer 9

When lactose is present:

• inducer binds to repressor on its allolactose site
• repressor cannot bind to promotors
• lactose digested

Question 10

Repressible:

• for metabolic pathways that are usually “on”
• when tryptophan (trp) level is low
• repressor protein is unable to attach to the promotor
• RNA polymerase transcribes the structural genes (Trp A, B, C, D, E) needed to synthesise trp
• constant low level of production of trip

Answer 10

Repressible:

• for metabolic pathways that are usually “on”
• when tryptophan (trp) level is low
• repressor protein is unable to attach to the promotor
• RNA polymerase transcribes the structural genes (Trp A, B, C, D, E) needed to synthesise trp
• constant low level of production of trip

Question 11

When Trp is present

• Trp binds to repressor
• shape of repressor changes, attaches to operator
• RNA polymerase cannot transcribe structural genes needed to synthesise trp
• continue until cytosol levels of trip decline

Answer 11

When Trp is present

• Trp binds to repressor
• shape of repressor changes, attaches to operator
• RNA polymerase cannot transcribe structural genes needed to synthesise trp
• continue until cytosol levels of trip decline

Question 12

Lac operon - up regulation

• to increase the rate of transcription of an operon When lactose is present and glucose is low
• body prefers glucose to lactose
• low glucose means amount of CAMP is high
• CAMP binds to cap protein activating it, CAMP/ Cap complex helps RNA polymerase to promotor - increase rate of transcription

Answer 12

Lac operon - up regulation

• to increase the rate of transcription of an operon When lactose is present and glucose is low
• body prefers glucose to lactose
• low glucose means amount of CAMP is high
• CAMP binds to cap protein activating it, CAMP/ Cap complex helps RNA polymerase to promotor - increase rate of transcription

Question 13

When glucose + lactose both present

• normal glucose level means amount of CAMP is low
• no camp for cap
• cap inactive
• little lactose gene transcription occurs

Answer 13

When glucose + lactose both present

• normal glucose level means amount of CAMP is low
• no camp for cap
• cap inactive
• little lactose gene transcription occurs

Question 14

Control of gene expression in eukaryotes:

• expression of genes into proteins can be controlled at different locations
• synthesis of proteins is controlled right from chromatin stage

Answer 14

Control of gene expression in eukaryotes:

• expression of genes into proteins can be controlled at different locations
• synthesis of proteins is controlled right from chromatin stage

Question 15

Regulation in the chromatin stage:

• mechanisms which affect the chromatin structure and hence the expression of the genes are:
• histone modifications
• methylation of DNA

Answer 15

Regulation in the chromatin stage:

• mechanisms which affect the chromatin structure and hence the expression of the genes are:
• histone modifications
• methylation of DNA

Question 16

Regulation of transcription

• promoters and enhancers

Answer 16

Regulation of transcription

• promoters and enhancers