Telomere and telomerase
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It describes about Structure and function of telomere, Telomerase enzyme, How does telomerase works?, Telomere replication, What happens to telomeres as we age?, Factors contribute to telomere shortening
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Telomere and telomerase
- 1. A SEMINAR PRESENTATION FOR PARTIAL FULFILLMENT OF MASTER’S DEGREE IN BIOTECHNOLOGY PRESENTED BY – ANKITAAGRAWAL DEPARTMENT OF BT & BI,SU MSC 4th SEM. ROLL NO – 18 BT 01 REG. NO -38226/15 .
- 2. CONTENTS • Introduction • Structure of telomere • Function of telomere • Telomerase • How does telomerase works? • Telomere replication • Whathappenstotelomeresasweage? • Factors contribute to telomere shortening • Why do telomeres get shorter each time a cell divides? • Conclusion
- 3. INTRODUCTION • Telomeres (telos = end, meros = part) • Repetitive nucleotide sequence (in human TTAGGG, 2500 timesrepeat). • Present (EK) at the end of chromosome. • Telomere loss is a major cause of cellular aging. DISCOVERY • Blackburn, Carol Greider and Jack Szostak were awarded the 2009 Nobel prize in physiology and medicine for the discovery of telomerase enzyme.
- 4. ** Act as cellular aging clock
- 5. STRUCTURE OF HUMAN TELOMERE • Conserved sequence. • Length varies from 2 to 20 kb pairs (depending on tissue type and human age). • Consists of double stranded short tandem repeats (TTAGGG), followed by terminal 3’-G rich single stranded overhangs. Fig.1 Telomeric DNA single strand region 150-300 bases Double strand region 5000-20000 bases
- 6. Conti…. • The telomere DNA is thought to adopt the T-loop structure, where the telomere ends fold back on itself and the 3’-G strand overhangs invades into the double stranded DNA (the so called D-loop). FIG.2.T-loop formation
- 7. Conti…. • Telomere can also fold into G-quadruplex (higher-order DNA conformation, guanine rich). • G-quadruplex is maintained by a set of telomeric protein complex (SHELTERIN). • Shelterin (telosome) consists of six individual proteins, 1) TRF1 ( Telomeric Repeat binding Factor 1) 2) TRF2 (Telomeric Repeat binding Factor 2) 3) TIN2 (TRF1 Interacting Protein 2) 4) TPP1 (Tripeptidyl-peptidase 1) 5) RAP-1 (Repressor-Activatior Protein 1) 6) POT1 ( Protection Of Telomere 1) attach to double- stranded telomeric repeats binds to the single- stranded overhang. act as bridging proteins inhibits DNA repair
- 8. Structure of human telomere
- 10. TELOMERASE Reverse transcriptase(RT) in nature. Ribonucleoprotein (RNA +RNA binding protein) that adds a species dependent telomere repeat sequence to 3’ end of chromosome. Known as cellular immortalizing enzyme. High telomerase activity exists in germ cells, stem cells, epidermal skin cells, follicular hair cells, and cancer cells.
- 11. Telomerase structure • The core enzyme consists of a) TERT – telomerase reverse transcriptase catalytic subunit b) TERC/TR - telomerase RNA (recognizes -OH group at 3’ end of G-strand overhang & elongates the telomere)
- 12. Whathappenstotelomeresasweage? • Chromosomes are shortened by about 20-200 bases per replication (i.e. telomere seq lost). • Without telomeres, important DNA would be lost every time a cell divides. • This would eventually lead to the loss of entire gene. • Example, human blood cells length of telomere, At birth – 8000 bp Adult – 3000 bp old age – 1500 bp
- 14. Factors contribute to telomere shortening End replication problem Oxidative stress **When the telomere becomes too short, the chromosome reaches a Critical lengthandcannolongerbereplicated. • This ‘critical length’ triggers the cell to die by a process called apoptosis, also knownasprogrammedcelldeath.
- 15. • With each cell division, telomere length is reduced by ~20 to 200 kb primarily because the lagging strand of DNA synthesis is unable to replicate the extreme 3’ end of the chromosome which is denoted as End Replication Problem. • Occurs during the DNA replication in Eukaryotes only. END REPLICATION PROBLEM
- 16. Occurs during the DNA replication in Eukaryotes only.
- 18. • If cells divide without telomeres, they would lose their ends of chromosomes i.e. genetic information. • Cells normally can divide only about 50-70 times; with telomers getting progressively shorter until the cells become senescent & die. • Hence it has been proposed that telomere shortening function as MOLECULAR CLOCK that COUNTS DOWN to the end of cell division. • This diminished ability of the cells to grow is strongly associate with the aging process with the reduced cell population directly contributing to weakness, illness and organ failure. CONCLUSION
- 19. FUTURE SCOPE • Measuring telomerase may be a new way to detect cancer (If scientists can learn how to stop telomerase, they might be able to fight with cancer by making cancer cells age and die). • Some of the drugs are showed positive results by inhibiting telomerase and associated proteins and finding the way to shortening of telomere which results in cell death/apoptosis. • Most of anti-telomerase drugs are still in Clinical phases I and II.
- 20. Reference • https://www.intechopen.com/books/telomere-a-complex-end- of-a-chromosome/telomere-and-telomerase-in-cancer • Pathfinder (part-1) • https://www.slideshare.net/fuad76/telomere-and-telomerase • https://www.slideshare.net/sparkle23/telomere-69010963 • https://en.wikipedia.org/wiki/Telomerase • https://en.wikipedia.org/wiki/Telomere • Anna Rev. Biochent. 19%. 6S:337-65 by Carol W. Greider