Helping San Diego, California and beyond since 1997.
Do you need
volunteer, community service, work, military or court hours?
|
|
Helping San Diego, California and beyond since 1997.
|
|
Click here and add this page to your favorites!
|
Encyclopedia Britannica - Main :: AJA-ALL |
|
|
ALBUMIN, or ALBUMEN (Lat. albus, white) , an organic sub-stance typical of a group of bodies (albumins or albuminates) of very complicated chemical composition. They are sometimes called the histogenetic bodies or proteids, because they are essential to the building up of the animal organism. The vegetable kingdom is the original
The albumins contain in all cases the elements carbon, hydrogen, nitrogen, sulphur and oxygen; their composition, however, varies within certain limits: C=50-55 %, H=69-7.3%,N=15-19%,S=03-2.4%,0=19-24%, crystallized albumin is C=51.48 %, H=6.76 %, N= 18.14%, S= o.96 %, 0= 22.66 %, which points to the formula
II General char-asters. in the transformation of the " white " of an egg on boiling. Albumins are generally detected by taking advantage of this property, or of certain colour changes. The reagents in common use are: Millon's reagent, a solution of mercuric nitrate containing nitrous acid, this gives a violet-red coloration; nitric acid,. which gives a yellow colour, turning to gold when treated with ammonia (xanthoproteic reaction); fuming sulphuric acid, which gives violet solutions; and caustic potash and copper sulphate, which, on warming, gives a red to violet coloration (biuret reaction). Boiling with dilute mineral
other acids. These decomposition products include: Decom" 1 cocoll or aminoacetic acid, NH2CH2COOH, position g y ' products. or aminopropionicacid,CH3CH(NH2)000H,a-amino- butyric acid, a-aminovalerianic acid, leucin or isobutyla-aminoacetic acid, (CH3)2CHCH2CH(NH2)000H, isoleucin, probably 0-aminocaproic acid, serin or a-amino-f3-hydroxypropionic acid, HOCH2CH(NH2)COOH, aspartic acid or aminosuccinic acid, HOOC.CH2.CH(NH2)COOH, glutaminic acid or a-amino-n-glutaric acid,H000 (CH2)2 CH(NH2) COON, diaminoacetic acid, a-13-diaminopropionic acid, lysin. or a-e-diamino-n-caproic acid, NH2(CH2)4 . CH (NH2) COON, arginin or guanidine-a-amino-n-valerianic acid, (NH) (NH2) CNH (CH2)3CH(NH2)COOH, ornithin or ab-diamino valerianic acid, NH2.(CH2)3.CH(NH2)000H, histidin or a-amino-/3-imidazol- I propionic acid, HOOC. CH(NH2) CH2. C : CH .N :CH NH, proline i I or a -pyrrolidin carboxylic acid, HOOCCHNHCH2CH2CH2, hydroxyproline, phenyl alanine or phenyl-a-aminopropionic acid, C61-15. CH2 CH (NH2) . COOH,tyrosine or p-hydroxyphenyl-aaminopropionic acid, . phenyl ethylamine, p-hydroxyphenyl ethylamine, tryptophane or indol aminopropionic acid, A. cystin (protein-cystin) or a-amino-$-thioglyceric acid " disulphide," (S . CH2 CH(NH2) COOH) 2, B. cystin (stone-cystin), or a-thio-fl-aminoglyceric acid " disulphide," (NH2CH2CH : S. COOH)2. This list
The complexity of composition militates in a great measure against a rational classification of albumins by purely chemical considerations. Such classifications have been at- .assm- tempted by A. Kossel and by W. Kiihne and E. P. Pick; canon of albumins. but in the present state of our knowledge, however,- the older classification of E. Dreschel and F. Hoppe-Seyler, based primarily on solubilities and distribution, may be conveniently retained. This classification is with certain modifications as follows: I. Albumins proper: characterized by having colloidal solutions. Albumins: serum-albumin, egg-albumin, lactalbumin. Globulins: serum-globulin, egg-globulin, lactoglobulin, cell-globulins. Plant-globulins and plant-vitellines. Fibrinogen. Myosin. Phosphorus containing albumins (nucleo-albumins), caseins, vitellines, nucleo-albumins of the cell-protoplasm, mucoid nucleo-albumins. (7) Histones. (8) Protamines. II. Transformation products of the albumins proper. (i) Acid-albumins, alkali albuminates. (2) Albumoses, peptones and peptides. (3) Halogen-albumins, oxyprotein, oxyprotsulphonic acid, &c. (i) Nucleo-proteids. (2) Haemoglobin and allied substances. (3) Glyco-proteids, mucins, mucoids, helico-proteid.IV. Albuminoids. (r) Collagen. (2) Keratin. (3) Elastin. (4) Fibroin. (5) Spongin, &c. (6) Amyloid. (7) Albumoid. (8) Colouring matters derived from albumin. Albumins proper.Albumins (as classified above) are soluble in water, dilute acids and alkalies, and in saturated neutral salt solutions; they are coagulated by heat. " Serum-albumin," or " blood-albumin," possibly C4i H7nNusSSOi4o, occurs in blood-serum, lymph, chyle, milk, &c.; its coagulation temperature is about 67. It differs from egg-albumin in its specific rotation (57 to -64), and in being slowly coagulated by alcohol and ether. Egg-albumin is the chief
chief
Albumoses and Peptones.The primary products of the dissociation of albumins are the abumoses,. characterized by not being coagulable by heat, more soluble than the albumins, having a far less complex composition, and `eApable of being"salted out " by certain salts, and the peptones, similar to albumoses but not capable of being " salted out "; moreover, peptones are less complex than albumoses. By further decomposition peptones yield peptides, a certain number of which have been synthesized by Emil Fischer and his collaborators. Albumoses and peptones are white powders, readily soluble in water, with the exception of the hetero-albumosesa subdivision of primary albumoses. They give the biuret and xanthoproteic reactions, and form salts with both acids and bases. Albumoses and peptones are obtained by peptic digestion, the latter being termed peptic-peptones; tryptic digestion also produces peptones. Acids and moist heat induce similar changes. Proteids.These substances are combinations of one or more albumins with a radical of an essentially different nature, termed by Kossel a " prosthetic group." It is convenient to classify proteids by those groups. " Nucleo-proteids," constituents of the cell-nucleus, are combinations of albumins and nucleic acid; they always contain iron. They are loose, white, non-hygroscopic powders, soluble in water and salt solutions, and have an acid reaction; they give the colour reactions of albumins. Nucleic acid is at present of unknown constitution; decomposition products are: phosphoric acid, uracil or 2.6-dioxy-pyrimidin,l cytosin or 2-oxy-6-amino-pyrimidin, thymin. (nucleosin) or 2.6-dioxy-5-methyl pyrimidin hypoxanthin' or 6-oxypurin, xanthin or 2.6-dioxypurin, adenine or 6 amino-purin, guanine or 2-amino-6-oxypurin, pentoses (1-xylose), laevulinic acid, ammonia, etc. The nucleic acids vary with the source of the proteids, there being considerable differences in chemical composition. In generA,i they are white, loose powders, slightly soluble in cold water, more soluble in hot water; they are precipitated by mineral
An important nucleo-proteid is haemoglobulin or haemoglobin, the colouring matter of the red blood corpuscles of vertebrates; a related substance, haemocyanin, in which the iron of haemoglobin is replaced by copper, occurs in the blood of cephalopods and crayfish. Haemoglobin is composed of a basic albumin and an acid substance haematin; it combines readily with oxygen, carbon dioxide and carbon monoxide to form loose compounds (see NuTRITtoN). It coagulates at 64. By a dilute acid haemoglobin is decomposed into globin, and " haematin," a ferri-pyrrol derivative of the probable formula
haematinic acids. " Glyco-proteids " differ from nucleo-proteids in containing a carbohydrate radical, which is liberated only by boiling with mineral acids or alkalies. The mucins and mucoids belong to this group; they are acid and contain no phosphorus; they give the albumin colour reactions but are not coagulated by heat. Mucins occur in most of the slimy fluids of the body
Abbuminoids is the anatomical name given to albuminous substances forming the connective tissues. Chemically they resemble the albumins, being split up by acids or ferments into albumoses, peptones and amino-acids, forming salts, and giving N=CB ' The pyrimidin ring is numbered 2C ,C5. For the purin ring, see PuxrN. NC 4 4the same colour reactions. They are quite insoluble in water and in salt solutions, and difficultly soluble in dilute acids and alkalies. Typical albuminoids are gelatin, keratin, elastin, fibroin, spongin and conchiolin. " Collagen " (Gr. ichXXa, glue, and root yev- of yevvaeuv, to produce, ytyveuOat, to become), the ground-substance of bones and tissues, is decomposed by boiling water or on warming with acids into substances named gelatin, glutin or glue. Gelatin forms a white amorphous powder; the commercial product, however, generally forms glassy plates. The decomposition products are generally the same as with the general albumin; it gives the biuret reaction; forms salts with acids and alkalies, but is essentially acid in nature. Immersed in cold water gelatin does not dissolve but swells up; it dissolves readily in hot water, forming, according to the quantity present, a thick jelly which solidifies to a hard mass on cooling (the " glue " of the wood
tissue " of the anatomist. Its insolubility is much the same as keratin. "Fibroin " and silk-glue or sericin occur in natural silk fibres. Fibroin is insoluble in water, acids and alkalies; silk-glue resembles gelatin in its solubility, but it is less readily gelatinized. " Spongin," the matrix of bath-sponge, is insoluble in water and dilute acids, but soluble in concentrated mineral acids. " Conchiolin," the matrix of shells of the mollusca, is only slightly soluble in acids. " Cornein " forms the framework of corals. " Amyloid " occurs as a pathological product, and also in the healthy aorta and in old cartilage. It is an albumin, and not a carbohydrate as was formerly held; and gives most of the colour reactions of albumins. It forms shiny, homogeneous masses, quite insoluble in cold water and in salt solutions, but soluble in alkalies. The albumoids include, according to Cohnheim, substances which possess certain properties in common, but differ from the preceding groups. In general they resemble coagulated albumin, and also the gelatin-yielding tissues, but they themselves do not yield gelatin.Colouring matters derived from albumins include the " melanins " (Gr. ykX as, black), substances which differ very considerably in composition, the sulphur and iron content being by no means constant; they do not give the reactions of albumins. The black colouring matter of hair, the skin of negroes, and of the ink bag of Sepia have been examined. Melanins obtained from tumours form black, shiny masses; they are insoluble in water, neutral salt solutions, dilute acids and in the common organic solvents. End of Article: ALBUMIN, or ALBUMEN (Lat. albus, white) If you wish, you can link directly to this article.
<a href="http://jcsm.org/StudyCenter/Encyclopedia/AJA_ALL/ALBUMIN_or_ALBUMEN_Lat_albus_w.html"> ALBUMIN, or ALBUMEN (Lat. albus, white) </a> |
|
|
(Previous) ALBUMAZAR |
(Next) ALBUMINURIA (Physiological or Functional) |
|
Sponsored Advertisements