Presentation is loading. Please wait.

Presentation is loading. Please wait.

TCR ( seen here in a ternary complex …) TCR’s come in two flavors…

Published byJoseph Elwin Bradford Modified over 8 years ago

Similar presentations

Presentation on theme: "TCR ( seen here in a ternary complex …) TCR’s come in two flavors…"— Presentation transcript:

1

2 TCR ( seen here in a ternary complex …)

3

4 TCR’s come in two flavors…

5

6 TCR’s (like Ig’s) have immense diversity

7

8 5461 ? ? ? ? ? ? ? ? ? 4 0 + 4 1 + 4 2 + 4 3 + 4 4 + 4 5 + 4 6 = 5461 (2 2 ) 0 + (2 2 ) 1 + (2 2 ) 2 + (2 2 ) 3 + (2 2 ) 4 + (2 2 ) 5 + (2 2 ) 6 = 5461 2 0 + 2 2 + 2 4 + 2 6 + 2 8 + 2 10 + 2 12 = 5461

9 “CD3” two heterodimers & one homodimer… specifically:     ( a variant…  is obtained by alternative splicing of the  template )

10 “CD3” All of the CD3 proteins have a negative charge (aspartic acid) in the transmembrane helix. Interacts with positive charge in the TCR transmembrane component. All CD3 proteins have ITAM (immunoreceptor tyrosine activation motifs) recognized by tyrosine kinases. ( Members of the larger MIRR [multi chain immune recognition receptor] class.)

11 “CD3” gamma, delta, and epsilon are members of the immunoglobulin superfamily. Each chain has an immunoglobulin domain + a transmembrane component + a cytoplasmic tail (approximately 44 to 55 amino acids long) 90% of chains with zeta are homodimers. Zeta and eta have 9 aa external domains, a transmembrane component and a cytoplasmic tail of 113 aa in zeta and 155 aa in eta; the two variants are transcripts of a common gene; the transcripts are alternatively spliced.

12 CD 4 & CD8 A heterodimer (usually  sometimes  ) One immunoglobulin domain “small” glycoproteins (30 – 38 kDa) -S—S- + transmembrane component + cytoplasmic tail (25-27 residues) 55 kDa monomeric glycoprotein Four immunoglobulin domains + a transmembrane component + a long cytoplasmic domain (with three serine residues)

13 CD4 and MHC-II The length of immunoglobulin folds in CD4 is equal to the two immunoglobulin folds in a TCR plus the peptide binding domain in MHC-II and the proximal immunoglobulin fold in MHC-II. Thus, these components can associate. Specifically, the most distal immunoglobulin fold of CD4 associates with the $2 immunoglobulin fold of MHC-II.

14 CD4 and MHC-II

15 Other molecules Lots of them… and, they’re important too!

16 Other molecules

Download ppt "TCR ( seen here in a ternary complex …) TCR’s come in two flavors…"

Similar presentations

Antigen Presentation K.J. Goodrum Department of Biomedical Sciences Ohio University 2005.

Antigen Presentation K.J. Goodrum Department of Biomedical Sciences Ohio University 2005.
Fc Receptors Oct. 28, 2009 Extra reading on web Daniel Conrad 423 MSB, 828-2311 I. CD23.

Fc Receptors Oct. 28, 2009 Extra reading on web Daniel Conrad 423 MSB, I. CD23.
Understanding biology through structuresCourse work 2006 Understanding Immune Recognition.

Understanding biology through structuresCourse work 2006 Understanding Immune Recognition.
The MHC complex: genetics, function and disease association

The MHC complex: genetics, function and disease association
Principles of Immunology Major Histocompatibility Complex 2/28/06 “Change is not merely necessary for life. It is life.” A Toffler.

Principles of Immunology Major Histocompatibility Complex 2/28/06 “Change is not merely necessary for life. It is life.” A Toffler.
115/9/2015 T Cell Receptor Hugh B. Fackrell Nov 9, 1998.

115/9/2015 T Cell Receptor Hugh B. Fackrell Nov 9, 1998.
The Immunological Orchestra Richard Gershon, Maestro

The Immunological Orchestra Richard Gershon, Maestro
ADAPTIVE IMMUNE RESPONSE Immune response to infections –1. Innate response Neutrophils, macrophages, NK cells at site of infection –2. Initiation of adaptive.

ADAPTIVE IMMUNE RESPONSE Immune response to infections –1. Innate response Neutrophils, macrophages, NK cells at site of infection –2. Initiation of adaptive.
Immunobiology: The Immune System in Health & Disease Sixth Edition Chapter 6 Signaling Through Immune System Receptors Copyright © 2005 by Garland Science.

Immunobiology: The Immune System in Health & Disease Sixth Edition Chapter 6 Signaling Through Immune System Receptors Copyright © 2005 by Garland Science.
Major Histocompatibility Complex and T Cell Receptor

Major Histocompatibility Complex and T Cell Receptor
Self-MHC restriction of the T cell receptor. Self-MHC restriction of T C cells R. Zinkernagel & P. Doherty.

Self-MHC restriction of the T cell receptor. Self-MHC restriction of T C cells R. Zinkernagel & P. Doherty.
Principles of Immunology T Cell Development 3/14/06 “For every problem there is a neat, simple solution, and it is always wrong. “ H L Mencken.

Principles of Immunology T Cell Development 3/14/06 “For every problem there is a neat, simple solution, and it is always wrong. “ H L Mencken.
Structure of T Cell Receptor CHO Variable region “V” Constant region “C” Hinge “H ” Alpha chain Beta chain Disulfide bridge Transmembrane region Cytoplasmic.

Structure of T Cell Receptor CHO Variable region “V” Constant region “C” Hinge “H ” Alpha chain Beta chain Disulfide bridge Transmembrane region Cytoplasmic.
Differential Antigen Processing Pathways. TAP: Transporter associated with Antigen Processing heterodimer.

Differential Antigen Processing Pathways. TAP: Transporter associated with Antigen Processing heterodimer.
Major Histocompatibility Complex Chapter 7. MHC Major Histocompatibility Complex –Cluster of genes found in all mammals –Its products play role in discriminating.

Major Histocompatibility Complex Chapter 7. MHC Major Histocompatibility Complex –Cluster of genes found in all mammals –Its products play role in discriminating.
Structure of Class II MHC (continued) 3.Transmembrane region – stretch of hydrophobic amino acids spanning membrane 4.Cytoplasmic region – contains sites.

Structure of Class II MHC (continued) 3.Transmembrane region – stretch of hydrophobic amino acids spanning membrane 4.Cytoplasmic region – contains sites.
1. Primary Structure: Polypeptide chain Polypeptide chain Amino acid monomers Peptide linkages Figure 3.6 The Four Levels of Protein Structure.

1. Primary Structure: Polypeptide chain Polypeptide chain Amino acid monomers Peptide linkages Figure 3.6 The Four Levels of Protein Structure.
Ahmad Sh. Silmi Msc,FIBMS IUG Medical Technology Dept

Ahmad Sh. Silmi Msc,FIBMS IUG Medical Technology Dept
Principles of Immunology T Cell Receptors 3/9/06 “Education is a better safeguard of liberty than a standing army.” Edward Everett.

Principles of Immunology T Cell Receptors 3/9/06 “Education is a better safeguard of liberty than a standing army.” Edward Everett.
T Cell Receptor W. Robert Fleischmann, Ph.D. Department of Urologic Surgery University of Minnesota Medical School (612) 626-5034.

T Cell Receptor W. Robert Fleischmann, Ph.D. Department of Urologic Surgery University of Minnesota Medical School (612)

Similar presentations

Ads by Google