Bacteriophage does not have repetitive sequences such as VNTRs in its genome, as its genome is very small and have all the coding sequence. DNA finger printing is not done for phages.

Further polymerisation would not occur, as the $3^{\prime} \mathrm{OH}$ on sugar is not there to add a new nucleotide for forming ester bond.

Watson and Crick had the following informations which helped them to develop a model of DNA.

(i) Chargaff's Law suggesting $\mathrm{A}=\mathrm{T}$ and $\mathrm{C}=\mathrm{G}$

(ii) Wilkins and Rosalind Franklin's work on DNA crystal's X-ray diffraction studies about DNAs physical structure.

Watson and Crick proposed

(a) Pattern of complementary bases pair

(b) Semi-conservative replication

(c) Mutation through tautomerism

(i) Methylated guanine cap helps in binding of $m$ RNA to smaller ribosomal sub-unit during initiation of translation.

(ii) Poly-A tail provides longevity to $m$ RNA's life. Tail length and longevity of $m$ RNA are positively correlated.

Functional mRNA of structural genes need not always include all of its exons. This alternate splicing of exons is sex-specific, tissue-specific and even developmental stage-specific. By such alternate splicing of exons, a single gene may encode for several isoproteins and/ or proteins of similar class.

In absence of such a kind of splicing, there should have been new genes for every protein/isoprotein. Such an extravagancy has been avoided in natural phenomena by way of alternate splicing.