Like Domain

The j3 subunit I-like domain, which is inserted in the hybrid domain of the /3-subunit (Fig. 2A), directly binds ligand in integrins that lack I domains in the a subunit (Fig. 3C, Fig. 6A). By contrast, when the I 

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The ANP leceptoi exists in two forms, ANP and ANPg, both of which have been cloned. These membrane-bound guanylate cyclases have a single transmembrane domain, an intracellular protein kinase-like domain, and a catalytic cyclase domain, activation of which results in the accumulation of cychc guanosine monophosphate (cGMP). A third receptor subtype (ANP ) has been identified that does not have intrinsic guanylate cyclase activity and may play a role in the clearance of ANP. 

Figure 13.24 Six subfamilies of receptor tyrosine kinases involved in cell growth and differentiation. Only one or two members of each subfamily are indicated. Note that the tyrosine kinase domain is interrupted by a "kinase insert region" in some of the subfamilies. The functional significance of the cysteine-rich and immunoglobulin-like domains is unknown.

MHC molecules are composed of antigen-binding and immunoglobulin-like domains... 

The class 1 MHC structure is divided into two globular regions (Figure 15.18). One region is built up from the two immunoglobulin-like domains a3... 

Figure 15.18 (a) Schematic representation of the path of the polypeptide chain in the structure of the class I MHC protein HLA-A2. Disulfide bonds are indicated as two connected spheres. The molecule is shown with the membrane proximal immunoglobulin-like domains (a3 and Pzm) at the bottom and the polymorphic al and a2 domains at the top. 

Many cell-surface receptors contain immunoglobulin-like domains. 

Many other cell-surface proteins involved in immunological recognition utilize immunoglobulin-like domains as structural elements. Immunoglobulin domains have been classified into five types, namely V (like antibody variable... 

Wang, J., et al. Atomic structure of a fragment of human CD4 containing two immunoglobulin-like domains. Nature 348 411-418, 1990. 

Chain extenders are usually low molecular weight symmetrical diols or diamines. Chain extenders react with isocyanates in the same way as polyols do, but because they are low molecular weight, a high concentration of hydrogen-bonded molecules can associate and phase out of the polyol to form plastic-like domains called hard segments . Hard segments will be discussed in Section 4. Some of the more common diol and diamine chain extenders are shown in Table 3. 

EGF-like domains were identified in extracellular proteins such as fibrillin-1. EGF-modules contain about 40-45 amino acids including six cysteine residues which normally build S-S disulfide bond bridges. Mutations in the fibrillin-1 gene cause Marfan syndrome and related disorders. 

The extracellular domain of cadherins consists of a variable number of a repeated sequence of about 110 amino acids. This sequence is termed the cadherin repeat and resembles in overall structure, but not in sequence, the Ig like domains. The cadherin repeat is the characteristic motive common to all members of the cadherin superfamily. Classical and desmosomal cadherins contain five cadherin repeats, but as many as 34 repeats have been found in the FAT cadherin (see below). Cadherins are calcium-dependent cell adhesion molecules, which means that removal of Ca2+, e.g., by chelating agents such as EDTA, leads to loss of cadherin function. The Ca2+-binding pockets are made up of amino acids from two consecutive cadherin repeats, which form a characteristic tertiary structure to coordinate a single Ca2+ion [1]. 

The two isozymes are both homodimers, composed of approximately 600 amino acids and possess approximately 60% homology. The three-dimensional structures of COX-1 and COX-2 are very similar. Each one consists of three independent units an epidermal growth factor-like domain, a membrane-binding section and an enzymic domain. The catalytic sites and the residues immediately adjacent are identical but for two small but crucial variations that result in an increase in the volume of the COX-2-active site, enabling it to accept inhibitor-molecules larger than those that could be accommodated in the COX-1 molecule. 

F-adjacent Transcript-10 (FAT 10) is composed of two ubiquitin-like domains and capable to mark conjugated proteins for proteasomal degradation independent of ubiquitin. FAT10 is inducible by IFN-y and TNF and induces apoptosis when over expressed. 

The integrin a 4(3 7 is restricted to leukocytes and can bind not only to VCAM1 and fibronectin, but also to MAdCAM the mucosal addressin or homing receptor, which contains immunoglobulin-like domains related to VCAM-1. 

Fig. 15 Amino acid sequences of artificial extracellular matrix (aECM) proteins. Each protein contains a TV tag, a histidine tag, a cleavage site, and elastin-like domains with lysine residues for crosslinking. The RGD cell-binding domain is found in aECM 1, whereas aECM 3 contains the CS5 cell-binding domain. aECM 2 and aECM 4 are the negative controls with scrambled binding domains for aECM 1 and aECM 3, respectively. Reprinted from [121] with permission from American Chemical Society, copyright 2004...

Fig. 22 Photo-crosslinked titin-mimetic hydrogel, with the circles indicating the folded immuno-globulin-like domains and the wavy lines indicating the resilin-like domains. Reproduced from [235] with permission from Nature Publishing Group, copyright 2010...

Figure 47-10. Schematic diagram of the structure of human L-selectin. The extracellular portion contains an amino terminal domain homologous to C-type lectins and an adjacent epidermal growth factor-like domain. These are followed by a variable number of complement regulatory-like modules (numbered circles) and a transmembrane sequence (blackdiamond). A short cytoplasmic sequence (open rectangle) is at the carboxyl terminal. The structures of P- and E-selectin are similar to that shown except that they contain more complement-regulatory modules.The numbers of amino acids in L-, P-, and E- selectins, as deduced from the cDNA sequences, are 385,789, and 589, respectively. (Reproduced, with permission, from Bevilacqua MP, Nelson RM Selectins. J Clin Invest 1993 91 370.)...

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