What is modern ananlytical techniques in biotechnology?
Answers
Answered by
0
Advanced biotechnology is inextricably linked to analytical chemistry. Not only is it necessary to verify the identities and purities of the products of recombinant DNA (rDNA) technology, but it is also essential to be able to detect and quantify these substances, their decomposition products, and their metabolites (when they are used as pharmacons), at trace concentrations. In this chapter we shall consider some of the modern analytical methodology used for the detection and determination of the products of the “new” biotechnology.
Answered by
1
Explanation:
If the common difference of an A.P. is 3, then find a20 – a15.If the common difference of an A.P. is 3, then find a20 – a15.If the common difference of an A.P. is 3, then find a20 – a15.If the common difference of an A.P. is 3, then find a20 – a15.If the common difference of an A.P. is 3, then find a20 – a15.If the common difference of an A.P. is 3, then find a20 – a15.[tex] \sf \: \: \: x= \frac{(mx_2+nx_1)}{(m+n)} ,y= \frac{(my_2+ny_1)}{(m+n)} \\ \\ [tex] \sf \: \: \: x= \frac{(mx_2+nx_1)}{(m+n)} ,y= \frac{(my_2+ny_1)}{(m+n)} \\ \\ [tex] \sf \: \: \: x= \frac{(mx_2+nx_1)}{(m+n)} ,y= \frac{(my_2+ny_1)}{(m+n)} \\ \\ [tex] \sf \: \: \: x= \frac{(mx_2+nx_1)}{(m+n)} ,y= \frac{(my_2+ny_1)}{(m+n)} \\ \\
Similar questions