343264
Genetic information transfers from nucleus to cytoplasm by
1 RNA
2 DNA
3 Lysosome
4 All
Explanation:
RNA is an intermediary between DNA and protein. According to Watson and Crick, RNA must copy the DNA message in the nucleus and carry it out to the cytoplasm , and this is where proteins are
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343265
The promoter site and the terminator site for transcription are located at:
1 3' (downstream) end and 5' (upstream) end, respectively of the transcription unit
2 5' (upstream) end and 3' (downstream) end, respectively of the transcription unit
3 3' (upstream) end and 5' (downstream) end, respectively of the transcription unit
4 5' (downstream) end and 3' (upstream) end, respectively of the transcription unit
Explanation:
The promoter is said to be located towards 5 '-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand). The terminator is located towards 3'-end (downstream) of the coding strand and it usually defines the end of the process of transcription
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343266
Molecule into which the coded information in DNA is transcribed is
1 tRNA
2 rRNA
3 snRNA
4 mRNA
Explanation:
Messenger RNA or mRNA are the special type of RNA which carry the information stored in DNA to other parts of the cell. A portion of the cell's DNA serves as a template in creating an RNA molecule during transcription. In some cases, the newly formed RNA molecule in itself a finished product, and serves as a useful function within the cell while in other cases, messages are carried by RNA molecule from the DNA to other parts of the cell for processing.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343267
A transcription unit in DNA is defined primarily by the three regions in DNA and these are with respect to upstream and down stream end;
1 Repressor, Operator gene, Structural gene
2 Structural gene, Transposons, Operator gene
3 Inducer, Repressor, Structural gene
4 Promotor, Structural gene, Terminator
Explanation:
A transcription unit of DNA is defined primarily by the three regions in the DNA: (i) A promoter (ii) The structural gene (iii) A terminator The promoter is said to be located towards \(5^{\prime}\)-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand) The terminator is located towards 3 '-end (downstream) of the coding strand.
NEET - 2024
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343268
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because
1 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 3’ → 5’ direction
2 Enzyme DNA dependent RNA polymerase always catalyse polymerisation in both the directions
3 Nucleotides of DNA strand with 5’ → 3’ are transferred to mRNA
4 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 5’ → 3’ direction
Explanation:
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because Enzyme DNA dependent RNA polymerase always catalyse the polymerization in 5‘→ 3’ direction
343264
Genetic information transfers from nucleus to cytoplasm by
1 RNA
2 DNA
3 Lysosome
4 All
Explanation:
RNA is an intermediary between DNA and protein. According to Watson and Crick, RNA must copy the DNA message in the nucleus and carry it out to the cytoplasm , and this is where proteins are
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343265
The promoter site and the terminator site for transcription are located at:
1 3' (downstream) end and 5' (upstream) end, respectively of the transcription unit
2 5' (upstream) end and 3' (downstream) end, respectively of the transcription unit
3 3' (upstream) end and 5' (downstream) end, respectively of the transcription unit
4 5' (downstream) end and 3' (upstream) end, respectively of the transcription unit
Explanation:
The promoter is said to be located towards 5 '-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand). The terminator is located towards 3'-end (downstream) of the coding strand and it usually defines the end of the process of transcription
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343266
Molecule into which the coded information in DNA is transcribed is
1 tRNA
2 rRNA
3 snRNA
4 mRNA
Explanation:
Messenger RNA or mRNA are the special type of RNA which carry the information stored in DNA to other parts of the cell. A portion of the cell's DNA serves as a template in creating an RNA molecule during transcription. In some cases, the newly formed RNA molecule in itself a finished product, and serves as a useful function within the cell while in other cases, messages are carried by RNA molecule from the DNA to other parts of the cell for processing.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343267
A transcription unit in DNA is defined primarily by the three regions in DNA and these are with respect to upstream and down stream end;
1 Repressor, Operator gene, Structural gene
2 Structural gene, Transposons, Operator gene
3 Inducer, Repressor, Structural gene
4 Promotor, Structural gene, Terminator
Explanation:
A transcription unit of DNA is defined primarily by the three regions in the DNA: (i) A promoter (ii) The structural gene (iii) A terminator The promoter is said to be located towards \(5^{\prime}\)-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand) The terminator is located towards 3 '-end (downstream) of the coding strand.
NEET - 2024
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343268
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because
1 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 3’ → 5’ direction
2 Enzyme DNA dependent RNA polymerase always catalyse polymerisation in both the directions
3 Nucleotides of DNA strand with 5’ → 3’ are transferred to mRNA
4 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 5’ → 3’ direction
Explanation:
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because Enzyme DNA dependent RNA polymerase always catalyse the polymerization in 5‘→ 3’ direction
343264
Genetic information transfers from nucleus to cytoplasm by
1 RNA
2 DNA
3 Lysosome
4 All
Explanation:
RNA is an intermediary between DNA and protein. According to Watson and Crick, RNA must copy the DNA message in the nucleus and carry it out to the cytoplasm , and this is where proteins are
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343265
The promoter site and the terminator site for transcription are located at:
1 3' (downstream) end and 5' (upstream) end, respectively of the transcription unit
2 5' (upstream) end and 3' (downstream) end, respectively of the transcription unit
3 3' (upstream) end and 5' (downstream) end, respectively of the transcription unit
4 5' (downstream) end and 3' (upstream) end, respectively of the transcription unit
Explanation:
The promoter is said to be located towards 5 '-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand). The terminator is located towards 3'-end (downstream) of the coding strand and it usually defines the end of the process of transcription
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343266
Molecule into which the coded information in DNA is transcribed is
1 tRNA
2 rRNA
3 snRNA
4 mRNA
Explanation:
Messenger RNA or mRNA are the special type of RNA which carry the information stored in DNA to other parts of the cell. A portion of the cell's DNA serves as a template in creating an RNA molecule during transcription. In some cases, the newly formed RNA molecule in itself a finished product, and serves as a useful function within the cell while in other cases, messages are carried by RNA molecule from the DNA to other parts of the cell for processing.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343267
A transcription unit in DNA is defined primarily by the three regions in DNA and these are with respect to upstream and down stream end;
1 Repressor, Operator gene, Structural gene
2 Structural gene, Transposons, Operator gene
3 Inducer, Repressor, Structural gene
4 Promotor, Structural gene, Terminator
Explanation:
A transcription unit of DNA is defined primarily by the three regions in the DNA: (i) A promoter (ii) The structural gene (iii) A terminator The promoter is said to be located towards \(5^{\prime}\)-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand) The terminator is located towards 3 '-end (downstream) of the coding strand.
NEET - 2024
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343268
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because
1 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 3’ → 5’ direction
2 Enzyme DNA dependent RNA polymerase always catalyse polymerisation in both the directions
3 Nucleotides of DNA strand with 5’ → 3’ are transferred to mRNA
4 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 5’ → 3’ direction
Explanation:
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because Enzyme DNA dependent RNA polymerase always catalyse the polymerization in 5‘→ 3’ direction
NEET Test Series from KOTA - 10 Papers In MS WORD
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BIOXII06: MOLECULAR BASIS OF INHERITANCE
343264
Genetic information transfers from nucleus to cytoplasm by
1 RNA
2 DNA
3 Lysosome
4 All
Explanation:
RNA is an intermediary between DNA and protein. According to Watson and Crick, RNA must copy the DNA message in the nucleus and carry it out to the cytoplasm , and this is where proteins are
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343265
The promoter site and the terminator site for transcription are located at:
1 3' (downstream) end and 5' (upstream) end, respectively of the transcription unit
2 5' (upstream) end and 3' (downstream) end, respectively of the transcription unit
3 3' (upstream) end and 5' (downstream) end, respectively of the transcription unit
4 5' (downstream) end and 3' (upstream) end, respectively of the transcription unit
Explanation:
The promoter is said to be located towards 5 '-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand). The terminator is located towards 3'-end (downstream) of the coding strand and it usually defines the end of the process of transcription
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343266
Molecule into which the coded information in DNA is transcribed is
1 tRNA
2 rRNA
3 snRNA
4 mRNA
Explanation:
Messenger RNA or mRNA are the special type of RNA which carry the information stored in DNA to other parts of the cell. A portion of the cell's DNA serves as a template in creating an RNA molecule during transcription. In some cases, the newly formed RNA molecule in itself a finished product, and serves as a useful function within the cell while in other cases, messages are carried by RNA molecule from the DNA to other parts of the cell for processing.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343267
A transcription unit in DNA is defined primarily by the three regions in DNA and these are with respect to upstream and down stream end;
1 Repressor, Operator gene, Structural gene
2 Structural gene, Transposons, Operator gene
3 Inducer, Repressor, Structural gene
4 Promotor, Structural gene, Terminator
Explanation:
A transcription unit of DNA is defined primarily by the three regions in the DNA: (i) A promoter (ii) The structural gene (iii) A terminator The promoter is said to be located towards \(5^{\prime}\)-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand) The terminator is located towards 3 '-end (downstream) of the coding strand.
NEET - 2024
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343268
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because
1 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 3’ → 5’ direction
2 Enzyme DNA dependent RNA polymerase always catalyse polymerisation in both the directions
3 Nucleotides of DNA strand with 5’ → 3’ are transferred to mRNA
4 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 5’ → 3’ direction
Explanation:
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because Enzyme DNA dependent RNA polymerase always catalyse the polymerization in 5‘→ 3’ direction
343264
Genetic information transfers from nucleus to cytoplasm by
1 RNA
2 DNA
3 Lysosome
4 All
Explanation:
RNA is an intermediary between DNA and protein. According to Watson and Crick, RNA must copy the DNA message in the nucleus and carry it out to the cytoplasm , and this is where proteins are
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343265
The promoter site and the terminator site for transcription are located at:
1 3' (downstream) end and 5' (upstream) end, respectively of the transcription unit
2 5' (upstream) end and 3' (downstream) end, respectively of the transcription unit
3 3' (upstream) end and 5' (downstream) end, respectively of the transcription unit
4 5' (downstream) end and 3' (upstream) end, respectively of the transcription unit
Explanation:
The promoter is said to be located towards 5 '-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand). The terminator is located towards 3'-end (downstream) of the coding strand and it usually defines the end of the process of transcription
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343266
Molecule into which the coded information in DNA is transcribed is
1 tRNA
2 rRNA
3 snRNA
4 mRNA
Explanation:
Messenger RNA or mRNA are the special type of RNA which carry the information stored in DNA to other parts of the cell. A portion of the cell's DNA serves as a template in creating an RNA molecule during transcription. In some cases, the newly formed RNA molecule in itself a finished product, and serves as a useful function within the cell while in other cases, messages are carried by RNA molecule from the DNA to other parts of the cell for processing.
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343267
A transcription unit in DNA is defined primarily by the three regions in DNA and these are with respect to upstream and down stream end;
1 Repressor, Operator gene, Structural gene
2 Structural gene, Transposons, Operator gene
3 Inducer, Repressor, Structural gene
4 Promotor, Structural gene, Terminator
Explanation:
A transcription unit of DNA is defined primarily by the three regions in the DNA: (i) A promoter (ii) The structural gene (iii) A terminator The promoter is said to be located towards \(5^{\prime}\)-end (upstream) of the structural gene (the reference is made with respect to the polarity of coding strand) The terminator is located towards 3 '-end (downstream) of the coding strand.
NEET - 2024
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343268
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because
1 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 3’ → 5’ direction
2 Enzyme DNA dependent RNA polymerase always catalyse polymerisation in both the directions
3 Nucleotides of DNA strand with 5’ → 3’ are transferred to mRNA
4 Enzyme DNA dependent RNA polymerase always catalyse the polymerisation in 5’ → 3’ direction
Explanation:
During transcription the DNA strand with 3’ → 5’ polarity of the structural gene always acts as a template because Enzyme DNA dependent RNA polymerase always catalyse the polymerization in 5‘→ 3’ direction