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Transcript
PROTEINS (Isolation, Hydrolysis, Qualitative Tests and Quantitative Determination) ISOLATION CASEIN • • • • • • • • • main protein in milk exists as the Ca salt phosphoprotein mixture of min of 3 similar proteins (-, - & casein) 80% of protein present in milk contains the essential amino acids (V P H MATILL) isolated at isoelectric pH (pI), least soluble (isoelectric precipitation) accomplished by addition of dilute acid net charge at pI=0 HYDROLYSIS • bond cleavage of labile bonds simultaneous with the addition of water O H2 O X O + HX OH • needed to break amide bonds in intact proteins to produce amino acids Types of Protein Hydrolysis Acid hydrolysis – catalyzed by strong acids such as H2SO4, HCl, HNO3, HClO4, etc. (15 psi/5 hrs.) • total hydrolysis • does not promote racemization of a-C configuration • Trp is destroyed and converted to humin (black pigment) • Thr and Ser are destroyed • Asn and Gln are converted to Asp and Glu Base/Alkaline Hydrolysis – uses strong bases such Ba(OH)2, NaOH, KOH, etc. (15 psi/5hrs.) • • • • • total hydrolysis Trp is not destroyed promotes racemization Thr and Cys are lost Arg is destroyed and converted to urea & ornithine Enzymatic hydrolysis – partial cleavage/hydrolysis • regioselective and/ stereoselective • cleaves specific linkages of selected types of amino acid groups (i.e. carboxypeptidase A for aromatic AA’s) QUALITATIVE CHEMICAL TESTS Biuret Test – general test for intact proteins and protein hydrolyzates (at least a tripeptide!) O • named after the compound, biuret H2 N O N N H2 H • reagents: CuSO4 solution and dilute NaOH • positive result: formation of pink to violet to blue color • principle: complexation of Cu+2 with amide N atoms • NO reaction with dipeptides, urea, coagulated proteins and amino acids (except serine and threonine) O O H N Cu R H O N H + 2 N O H R H N H Ninhydrin Test – general test for compounds with free a – amino groups • • • • • • one of the most sensitive color reactions known reagent/s: ninhydrin (1,2,3 - indanetrione monohydrate) in ethanol positive result: blue to blue violet color principle: oxidative deamination and decarboxylation; reduction of ninhydrin Proline, hydroxyproline, and 2-, 3-, and 4-aminobenzoic acids fail to give a blue color but produce a yellow color instead ammonium salts give a positive test. Some amines, such as aniline, yield orange to red colors, which is a negative test O O O OH OH + R H + OH RCHO + CO 2 + NH3 OH NH2 O O O O OH OH O + 2 NH3 + H + NH4 O O HO O + - N O O H2O Xanthoproteic Test – general test for aromatic amino acids such as tryptophan, phenylalanine, histidine and tyrosine • presence of electron donating substituents enhances reaction rate • reagents: conc. HNO3 and conc. NaOH (neutralize excess acid) • positive results: formation of yellow precipitate and after addition of excess NaOH (alkaline), an orange precipitate forms • principle involved: nitration of aromatic rings (i.e. indole in tryptophan!) via electrophilic aromatic substitution - O O N H3 HNO 3 HO - O N H3 N O N H3 x' cess NaOH O O OH - O N O - O - Hopkins-Cole Test – detects the presence of indole group in tryptophan • reagents: magnesium, oxalic acid and conc. H2SO4 • positive result: pink to violet interface • principle: reduction of oxalic acid to glyoxilic acid & acid-catalyzed condensation of 2 tryptophans with glyoxilic acid OH OH O O N H3 O - N H O + O Mg O O H3 N OH H H - O + OH H O N H N O - O N H3 Sakaguchi Test – specific for arginine (guanido group) • reagents: -napthol, NaOH and NaOBr (and urea to stabilize color and destroy excess OBr- anions) • positive result: red to red-orange color • principle: base-catalyzed condensation of -napthol with the guanido group of arginine H3 N H3 N + H H O O O N H2 - OH - NH N + O + 2 OH - N N H OH H N O QUANTITATIVE DETERMINATION OF PROTEINS Bradford Assay – simple, fast, inexpensive, highly sensitive • • • • • • • • • • • uses the Coomassie Brilliant Blue G-250 dye reagent ( binds electrostatically with arginine residues in anionic form and by pistacking interactions with aromatic AA’s) read at 595 nm (UV spectrophotometer) intensity of color (measured by absorbance) is directly proportional to the concentration of protein (Beer’s Law) A = bc unknown concentration is measured using linear regression analysis y = mx + b where: y = measured absorbance m = slope x = concentration of unknown b = y-intercept for standard protein preparations, use C1V1=C2V2 when dilutions are done on standard solutions. H 3 CCH 2 SO 3 N - H 3 CH 2 CO N N H CH 2 CH 3 SO 3 N a
