RNA STRUCTURE DETAILED CONCEPT
RNA, MRNA, TRNA, RRNA and other types of RNA
Description
RNA is a polymer of ribonucleotides held together by 3 ,5 –phosphodiester bridges.
Although RNA has certain similarities with DNA structure ,they have several specific differences.
1.Pentose The sugar :in RNA is ribose in contrast to deoxyribose in DNA.
2.pyrimidine: RNA contains the pyrimidine uracil in place of thymine
3.Single strand: RNA is usually a single stranded polynucleotide. How ever, this strand may fold at certain places to give a double stranded structure, if complementary base pairs are in close proximity.
4.chargaff”srule – not obeyed : Due to the single- stranded nature, there is no specific relation between purine and pyrimidine contents.
Thus the guanine contents is not equal to cytosine(as is the case in DNA)
5.Susceptability to alkali hydrolysis : Alkali can hydrolyze RNA to 2,3-cyclic diesters.
This is possible due to the presence of a hydroxyl group at 2 position.
DNA cannot be subjected to alkali hydrolysis due to lack of this group.
6.Orcinol color reaction :RNAs can be histologically identified by orcinol color reaction due to the presence of ribose.
Types of RNA: mRNA, rRNA and tRNA
RNA or ribonucleic acid is a polymer of nucleotides that is made up of a ribose sugar, a phosphate, and bases such as adenine, guanine, cytosine, and uracil.
It plays a crucial role in gene expression by acting as the intermediate between the genetic information encoded by DNA and protein RNA has a structure very similar to that of DNA.
The key difference in RNA structure is that the ribose sugar in RNA possesses a hydroxyl (-OH) group that is absent in DNA.
and much more you can find in session presentations.
What You Will Learn!
- Introduction: RNA
- MRNA PART1
- MRNA PART2
- MRNA PART3
- RRNA
- TRNA
- OTHER TYPES OF RNA
- RNA APPLICATIONS
Who Should Attend!
- ALL LIFE SCIENCE STUDENTS