A coding region of a gene is comprised of several chunks of exons and introns, where the splicing process can differentially cut and reorganize these parts to create more than one protein. In other words, an RNA transcript can be spliced in a number of ways in order to produce several types of proteins since the coding sequence becomes altered after splicing.
References
Academic.Tips. (2022) 'How can one gene code for more than one protein'. 11 December.
Reference
Academic.Tips. (2022, December 11). How can one gene code for more than one protein? https://academic.tips/question/how-can-one-gene-code-for-more-than-one-protein/
References
Academic.Tips. 2022. "How can one gene code for more than one protein?" December 11, 2022. https://academic.tips/question/how-can-one-gene-code-for-more-than-one-protein/.
1. Academic.Tips. "How can one gene code for more than one protein?" December 11, 2022. https://academic.tips/question/how-can-one-gene-code-for-more-than-one-protein/.
Bibliography
Academic.Tips. "How can one gene code for more than one protein?" December 11, 2022. https://academic.tips/question/how-can-one-gene-code-for-more-than-one-protein/.
Work Cited
"How can one gene code for more than one protein?" Academic.Tips, 11 Dec. 2022, academic.tips/question/how-can-one-gene-code-for-more-than-one-protein/.