Registration for a live webinar on 'Neuroleptic malignant syndrome' is now open.
See webinar detailsWe noted you are experiencing viewing problems
-
Check with your IT department that JWPlatform, JWPlayer and Amazon AWS & CloudFront are not being blocked by your network. The relevant domains are *.jwplatform.com, *.jwpsrv.com, *.jwpcdn.com, jwpltx.com, jwpsrv.a.ssl.fastly.net, *.amazonaws.com and *.cloudfront.net. The relevant ports are 80 and 443.
-
Check the following talk links to see which ones work correctly:
Auto Mode
HTTP Progressive Download Send us your results from the above test links at access@hstalks.com and we will contact you with further advice on troubleshooting your viewing problems. -
No luck yet? More tips for troubleshooting viewing issues
-
Contact HST Support access@hstalks.com
-
Please review our troubleshooting guide for tips and advice on resolving your viewing problems.
-
For additional help, please don't hesitate to contact HST support access@hstalks.com
We hope you have enjoyed this limited-length demo
This is a limited length demo talk; you may
login or
review methods of
obtaining more access.
- Genetics of Developmental Disorders
-
1. Imprinting disorders associated with molecular changes on chromosome 11p15
- Prof. Rosanna Weksberg
-
2. Chromatin genes and disease
- Prof. Richard Gibbons
-
3. Heterochromatin, epigenetics and gene expression
- Prof. Joel C. Eissenberg
- Cardiopulmonary Disease
-
4. Transcription factors and complex disease development
- Dr. Ines Pineda-Torra
-
5. Molecular genetics of pulmonary arterial hypertension
- Prof. Richard C. Trembath
- Neuromuscular System Diseases
-
6. Gene therapy for the muscular dystrophies
- Prof. Jeff Chamberlain
-
7. RAS pathway and disease: neurofibromatosis and beyond
- Prof. Eric Legius
-
8. Congenital syndromes of pain and painlessness
- Prof. Geoff Woods
- Prof. James Cox
- Endocrinology and Metabolism
-
9. Changing lives: stratified medicine in monogenic diabetes
- Prof. Andrew Hattersley
-
10. Genetics of monogenic obesity 1
- Prof. Dr. Johannes Hebebrand
- Prof. Dr. Anke Hinney
-
11. Genetics of monogenic obesity 2
- Prof. Dr. Johannes Hebebrand
- Prof. Dr. Anke Hinney
- Cancer Genetics
-
13. Inherited predisposition to breast cancer
- Prof. Diana Eccles
-
14. Genetics of breast and ovarian cancer
- Prof. Jeffrey Weitzel
-
16. NF2-related Schwannomatosis and Gorlin Syndrome
- Prof. D. Gareth R. Evans
-
17. The genetic basis of kidney cancer
- Dr. W. Marston Linehan
- Oligogenic and Complex Diseases
-
18. Ciliopathies and oligogenic phenomena
- Prof. Nicholas Katsanis
- Therapy
-
19. Mismatch repair deficient cancers & Lynch syndrome
- Prof. Sir John Burn
- Archived Lectures *These may not cover the latest advances in the field
-
20. Mismatch repair deficient cancers: diagnosis, treatment and prevention
- Prof. Sir John Burn
-
21. NF2 & Gorlins
- Prof. D. Gareth R. Evans
Printable Handouts
Navigable Slide Index
- Introduction
- Summary (1)
- Intracellular protein trafficking
- Intracellular vesicle traffic
- Clinical syndromes with abnormal trafficking
- Intracellular trafficking model
- George Palade (1912-2008)
- Nobel lecture of George Palade
- Christian De Duve (1917-2013)
- Stuart Kornfeld
- James Rothman
- Randy Schekman
- Intracellular trafficking machinery
- Cargo recruitment and vesicle biogenesis
- Disorders of vesicle biogenesis
- Defects in Rabs and Rab-associated proteins
- Rab cycle
- Rab associated disorders
- Cytoskeleton and associated proteins
- Dynamic microtubules
- Mitochondria trafficked along microtubules
- Disorders of cytoskeletal traffic
- Kinesin movement along microtubules
- Vesicular tethering and fusion
- SNAREs and membrane fusion
- Disorders of defective vesicle fusion
- ARC syndrome
- ARC syndrome - liver damage
- ARC syndrome - kidney damage
- ARC platelets – a-granule defect
- Osteopenia, fractures, skin laxity
- VPS33B and VIPAR
- Intracellular localisation of VIPAR/VPS33B
- Cell model of ARC
- Reduced expression of E-cadherin in kd cells
- Transcriptional downregulation effect on E-cadherin
- Zebrafish model of ARC syndrome
- E-cadherin in human and zf VIPAR deficiency
- Conclusions: ARC syndrome
- Summary (2)
Topics Covered
- Concepts and pathways in intracellular trafficking
- Disorders affecting specific trafficking steps
- Arthrogryposis-Renal dysfunction-Cholestasis (ARC) syndrome
- ARC syndrome as an example of a trafficking disorder
Links
Series:
Categories:
Talk Citation
Gissen, P. (2015, January 19). Traffic problems: inherited disease and intracellular trafficking defect [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved October 14, 2024, from https://doi.org/10.69645/NTFN9523.Export Citation (RIS)
Publication History
Financial Disclosures
- Dr. Paul Gissen has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
A selection of talks on Biochemistry
Transcript
Please wait while the transcript is being prepared...
0:00
My name is Paul Gissen,
and I'm a Researcher at
the UCL Laboratory for Molecular Cell Biology and Institute of Child Health.
I'm also a Consultant in metabolic medicine in Great Ormond Street Hospital for Children.
Today, I'm going to talk to you about traffic problems,
inherited disease, and intracellular trafficking defect.
0:24
In this talk, we will discuss concepts and pathways in intracellular protein trafficking.
We will also mention different disorders
that are caused by specific trafficking abnormalities.
I will also focus on ARC syndrome as an example
of a trafficking disorder as this is the interest of my laboratory.
0:51
Intracellular protein trafficking is broadly divided into two steps,
and they are directly opposite to each other.
One of them is protein secretion in which polypeptides which are synthesized
in the ribosomes are then folded and oligomerized in the ER,
and then packaged into transport vesicles in
the endoplasmic reticulum and travel to the Golgi complex.
In the Golgi, it's the organ where
post-translational modification occurs and then the proteins are sorted into
various routes and then directed in
various vesicles towards the membrane or other organelles of the cell.
The endocytosis is where the proteins are
internalized from the plasma membrane and then they can be recycled
back into the membrane or maybe trafficked for degradation to
lysosomes or transcytosed from the basal lateral to the apical membrane of the cell.
Hide