Match the following $RNA$ polymerase with their transcribed products
$(a) \;RNA$ polymerase $I$ | $(i) \;tRNA$ |
$(b) \;RNA$ polymerase $II $ | $(ii)\; rRNA$ |
$(c)\; RNA$ polymerase $III $ | $(iii) \;hnRNA$ |
Select the correct option from the following
$a-i, b-iii, c-ii$
$a-i, b-ii, c-iii$
$a-ii, b-iii, c-i$
$a-iii, b-ii, c-i$
Full Forms : $mRNA$ & $tRNA$
The coding strand of $DNA$ is :
$5'AATTCAAATTAGG3'$
What is the sequence of $mRNA$ ?
If the $DNA$ strand has the nitrogenous base sequence $ATTGCC$, the $mRNA$ will have
Do you think that the alternate splicing of exons may enable a structural gene to code for several isoproteins from one and the same gene ? If yes, how ? If not, why so ?
Which of the following statements about $RNA$ polymerase are correct?
$i. \;RNA\; polymerase \;I \;transcribes \;rRNAs$.
$ii. \;RNA \;polymerase \;II \;transcribes \;snRNAs.$
$iii. \;RNA \;polymerase \;III \;transcribes \;hnRNA.$
$iv. \;RNA \;polymerase \;II \;transcribes \;hnRNAs.$