343303
\(\rho\)-factor in the process of transcription in bacteria is also known as:
1 Initiation factor
2 Elongation factor
3 Termination factor
4 Regulatory genes
Explanation:
\(\rho\)-factor in the process of transcription in bacteria is also known as:Termination factor
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343304
Post transcriptional modification in Eukaryotes is referred as
1 Translation
2 Splicing
3 Sequencing
4 Restriction
Explanation:
A synthesized RNA transcript undergoes many levels of processing called post transcriptional modification in Eukaryotes. Taking an example of mRNA, modification is important to convert pre-mRNA into a mature mRNA which is ready for protein translation. Splicing is one such modification.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343305
Poly A tail is present in
1 rRNA bacteria
2 m RNA eukaryotes
3 Promotor of bacteria
4 tRNA of eukaryotes
Explanation:
Poly A tail is present in m-RNA eukaryotes
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343306
In eukaryotes, the structural gene in a transcription unit could be said as
1 Monocistronic
2 Encoding only one polypeptide per RNA molecule
3 Polycistronic
4 Both (1) and (2)
Explanation:
Structural genes is referred as a gene that controls the production of a definite protein or peptide. In a transcription unit the structural gene can be said as monocistronic especially in eukaryotes whereas in prokaryotes or bacteria it is polycistronic. In eukaryotes each gene is consists of coding exons and interspersed non-coding introns.
343303
\(\rho\)-factor in the process of transcription in bacteria is also known as:
1 Initiation factor
2 Elongation factor
3 Termination factor
4 Regulatory genes
Explanation:
\(\rho\)-factor in the process of transcription in bacteria is also known as:Termination factor
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343304
Post transcriptional modification in Eukaryotes is referred as
1 Translation
2 Splicing
3 Sequencing
4 Restriction
Explanation:
A synthesized RNA transcript undergoes many levels of processing called post transcriptional modification in Eukaryotes. Taking an example of mRNA, modification is important to convert pre-mRNA into a mature mRNA which is ready for protein translation. Splicing is one such modification.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343305
Poly A tail is present in
1 rRNA bacteria
2 m RNA eukaryotes
3 Promotor of bacteria
4 tRNA of eukaryotes
Explanation:
Poly A tail is present in m-RNA eukaryotes
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343306
In eukaryotes, the structural gene in a transcription unit could be said as
1 Monocistronic
2 Encoding only one polypeptide per RNA molecule
3 Polycistronic
4 Both (1) and (2)
Explanation:
Structural genes is referred as a gene that controls the production of a definite protein or peptide. In a transcription unit the structural gene can be said as monocistronic especially in eukaryotes whereas in prokaryotes or bacteria it is polycistronic. In eukaryotes each gene is consists of coding exons and interspersed non-coding introns.
343303
\(\rho\)-factor in the process of transcription in bacteria is also known as:
1 Initiation factor
2 Elongation factor
3 Termination factor
4 Regulatory genes
Explanation:
\(\rho\)-factor in the process of transcription in bacteria is also known as:Termination factor
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343304
Post transcriptional modification in Eukaryotes is referred as
1 Translation
2 Splicing
3 Sequencing
4 Restriction
Explanation:
A synthesized RNA transcript undergoes many levels of processing called post transcriptional modification in Eukaryotes. Taking an example of mRNA, modification is important to convert pre-mRNA into a mature mRNA which is ready for protein translation. Splicing is one such modification.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343305
Poly A tail is present in
1 rRNA bacteria
2 m RNA eukaryotes
3 Promotor of bacteria
4 tRNA of eukaryotes
Explanation:
Poly A tail is present in m-RNA eukaryotes
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343306
In eukaryotes, the structural gene in a transcription unit could be said as
1 Monocistronic
2 Encoding only one polypeptide per RNA molecule
3 Polycistronic
4 Both (1) and (2)
Explanation:
Structural genes is referred as a gene that controls the production of a definite protein or peptide. In a transcription unit the structural gene can be said as monocistronic especially in eukaryotes whereas in prokaryotes or bacteria it is polycistronic. In eukaryotes each gene is consists of coding exons and interspersed non-coding introns.
343303
\(\rho\)-factor in the process of transcription in bacteria is also known as:
1 Initiation factor
2 Elongation factor
3 Termination factor
4 Regulatory genes
Explanation:
\(\rho\)-factor in the process of transcription in bacteria is also known as:Termination factor
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343304
Post transcriptional modification in Eukaryotes is referred as
1 Translation
2 Splicing
3 Sequencing
4 Restriction
Explanation:
A synthesized RNA transcript undergoes many levels of processing called post transcriptional modification in Eukaryotes. Taking an example of mRNA, modification is important to convert pre-mRNA into a mature mRNA which is ready for protein translation. Splicing is one such modification.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343305
Poly A tail is present in
1 rRNA bacteria
2 m RNA eukaryotes
3 Promotor of bacteria
4 tRNA of eukaryotes
Explanation:
Poly A tail is present in m-RNA eukaryotes
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343306
In eukaryotes, the structural gene in a transcription unit could be said as
1 Monocistronic
2 Encoding only one polypeptide per RNA molecule
3 Polycistronic
4 Both (1) and (2)
Explanation:
Structural genes is referred as a gene that controls the production of a definite protein or peptide. In a transcription unit the structural gene can be said as monocistronic especially in eukaryotes whereas in prokaryotes or bacteria it is polycistronic. In eukaryotes each gene is consists of coding exons and interspersed non-coding introns.
