If we introduce the desired gene into the bacteriophage DNA and the bacteriophage is allowed to divide in the number of copies of the desired gene that can be produced is expected to be :

A 'giant mouse' in the laboratory can be produced by gene:

The technique involving insertion of a desired gene into the DNA of plasmid vector is know as

A transgenic mice that carries a desired gene replaced by other gene is called

(i) Name the organism in which the vector shown in inserted to get the copies of the desired gene. (ii) Mention the area labelled in the vector responsible for controlling the copy number of the inserted gene. (iii) Name and explain the role of a selectable marker in the vector shown.

The transfer of chimeric DNA gene into host cells can be done by

The traditional inclusion and multiplication of genes along with the desired genes involves

Independent genes that copy other genes so as to produce a similar effect are called

Large number of desirable characters can be incorporated into a single variety by

The different steps of recombinant DNA technology are given below randomly. (i) Isolation of the DNA fragments or genes to be cloned (ii) Introduction of the recombinant DNA into a suitable cell (usually E. coil) called host (transformation) (iii) Multiplication/expression of the introduced gene in the host (iv) Selection of the transformed host cells, and identification of the clone containing the desired gene/DNA fragment (v) Insertion of the isolated gene in a suitable plasmid vector Which of the following represents the correct sequences of steps ?

In a complimentary gene interaction calculate the number of phenotype and genotype produced in a cross AaBb xx aaBB