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Secretory Signalling Glycoprotein (secretory + signalling_glycoprotein)

Distribution by Scientific Domains
Chemistry100%

Selected Abstracts

Tryptophan as a three-way switch in regulating the function of the secretory signalling glycoprotein (SPS-40) from mammary glands: structure of SPS-40 complexed with 2-methylpentane-2,4-diol at 1.6,Å resolution

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 4 2009
Pradeep Sharma
The 40,kDa secretory signalling glycoprotein (SPS-40) is the first example with Trp78 in three functional orientations: (i) a resting state with a pinched conformation, (ii) a stacked conformation when bound to hexasaccharide and (iii) an obstructive conformation when inhibited by 2-methylpentane-2,4-diol (MPD). Trp78 is present in the core of the sugar-binding groove. The hexasaccharide N -acetylglucosamine (GlcNAc6) has been shown to bind to SPS-40. As a result of this, the conformation of Trp78 alters from the native pinched conformation (,1 = ,65.5°, ,2,1 = ,78.8°, ,2,2 = 97.5°) to the stacked conformation (,1 = ,170.0°, ,2,1 = ,114.3°, ,2,2 = 61.6°). Further binding experiments showed that saccharide binding does not occur in the presence of 20% MPD. The crystal structure determination of the complex of SPS-40 with MPD revealed the presence of two MPD molecules in the sugar-binding groove. The very tightly bound MPD molecules at subsites ,2 and ,1 induced an unexpected and a rarely observed conformation of Trp78 (,1 = 55.9°, ,2,1 = 90.2°, ,2,2 = ,88.9°) which is termed an obstructive conformation. The binding of MPD molecules also twisted the side chains of Glu269 and Ile272 considerably. These residues are also part of the sugar-binding groove. The observed obstructive conformation of the side chain of Trp78 in the present structure is the exact opposite of the stacked conformation. This rarely observed conformation is stabilized by a number of hydrogen bonds between Trp78 and Asn79 through water molecules W49, W229, W269, W547 and W557. [source]

Structure of a bovine secretory signalling glycoprotein (SPC-40) at 2.1,Å resolution

ACTA CRYSTALLOGRAPHICA SECTION D, Issue 9 2006
Janesh Kumar
A recently discovered new class of 40,kDa glycoproteins forms a major component of the secretory proteins in the dry secretions of non-lactating animals. These proteins are implicated as protective signalling factors that determine which cells are to survive during the processes of drastic tissue remodelling. In order to understand its role in the remodelling of mammary glands, the detailed three-dimensional structure of the bovine signalling glycoprotein (SPC-40) has been determined using X-ray crystallography. SPC-40 was purified from bovine dry secretions and crystallized using the hanging-drop vapour-diffusion method. The crystals belong to the orthorhombic space group P212121, with unit-cell parameters a = 62.6, b = 67.4, c = 106.9,Å. The protein was also cloned in order to determine its complete amino-acid sequence. Its three-dimensional structure has been determined using data to 2.1,Å resolution. The amino-acid sequence determination of SPC-40 reveals two potential N-glycosylation sites at Asn39 and Asn345, but electron density for a glycan chain was only present at Asn39. The protein adopts a conformation with the classical (,/,)8 -barrel fold of triosephosphate isomerase (TIM barrel; residues 1,237 and 310,360) with the insertion of a small ,+, domain (residues 240,307) similar to that observed in chitinases. However, the substitution of Leu for Glu in the consensus catalytic sequence in SPC-40 caused a loss of chitinase activity. Furthermore, the chitin-binding groove in SPC-40 is considerably distorted owing to unfavourable conformations of several residues, including Trp78, Tyr120, Asp186 and Arg242. Three surface loops, His188,His197, Phe202,Arg212 and Tyr244,Pro260, have exceptionally high B factors, suggesting large-scale flexibility. Fluorescence studies indicate that various sugars bind to SPC-40 with low affinities. [source]

Structure of the buffalo secretory signalling glycoprotein at 2.8,Å resolution

ACTA CRYSTALLOGRAPHICA SECTION F (ELECTRONIC), Issue 4 2007
Abdul S. Ethayathulla
The crystal structure of a 40,kDa signalling glycoprotein from buffalo (SPB-40) has been determined at 2.8,Å resolution. SPB-40 acts as a protective signalling factor by binding to viable cells during the early phase of involution, during which extensive tissue remodelling occurs. It was isolated from the dry secretions of Murrah buffalo. It was purified and crystallized using the hanging-drop vapour-diffusion method with 19% ethanol as the precipitant. The protein was also cloned and its complete nucleotide and amino-acid sequences were determined. When compared with the sequences of other members of the family, the sequence of SPB-40 revealed two very important mutations in the sugar-binding region, in which Tyr120 changed to Trp120 and Glu269 changed to Trp269. The structure showed a significant distortion in the shape of the sugar-binding groove. The water structure in the groove is also drastically altered. The folding of the protein chain in the flexible region comprising segments His188,His197, Phe202,Arg212 and Tyr244,Pro260 shows large variations when compared with other proteins of the family. [source]