scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1007/BFB0045698 |
P953 | full work available at URL | http://link.springer.com/content/pdf/10.1007/BFb0045698.pdf |
P698 | PubMed publication ID | 180632 |
P2093 | author name string | E. T. Degens | |
P2860 | cites work | biomineralization | Q610457 |
Journal of Cell Science | Q1524177 | ||
The Biological Bulletin | Q1954904 | ||
Journal of Phycology | Q15716757 | ||
H 2 CO 3 as substrate for carbonic anhydrase in the dehydration of HCO 3 | Q24562989 | ||
Crystal structure of human erythrocyte carbonic anhydrase B. Three-dimensional structure at a nominal 2.2-A resolution | Q24564676 | ||
Oxygen-collagen priority and the early metazoan fossil record | Q24634706 | ||
Comparative biochemistry and physiology | Q27710495 | ||
The thermal transition of a non-hydroxylated form of collagen. Evidence for a role for hydroxyproline in stabilizing the triple-helix of collagen | Q28244746 | ||
Proterozoic eucaryotes from eastern california | Q28776807 | ||
STUDIES ON THE BIOCHEMISTRY AND FINE STRUCTURE OF SILICA SHELL FORMATION IN DIATOMS. I. THE STRUCTURE OF THE CELL WALL OF CYLINDROTHECA FUSIFORMIS REIMANN AND LEWIN | Q30998530 | ||
Directional Character of Proton Transfer in Enzyme Catalysis | Q33700130 | ||
Isolation and characterization of calcifying matrix vesicles from epiphyseal cartilage | Q33709175 | ||
Membrane Transport: Its Relation to Cellular Metabolic Rates | Q34016869 | ||
Membrane Structure: Some General Principles | Q34052775 | ||
Mechanism of calcium induction of Renilla bioluminescence. Involvement of a calcium-triggered luciferin binding protein | Q34203036 | ||
Atherosclerosis and the arterial smooth muscle cell: Proliferation of smooth muscle is a key event in the genesis of the lesions of atherosclerosis | Q34207431 | ||
Nitrogen ligands at the active site of alkaline phosphatase | Q34699003 | ||
Carbonic anhydrase: chemistry, physiology, and inhibition | Q34700953 | ||
Rapid Lateral Diffusion of Phospholipids in Rabbit Sarcoplasmic Reticulum | Q34719896 | ||
Calcium Transport in Sarcoplasmic Reticulum | Q35055877 | ||
The effect of calcium ionophores on fragmented sarcoplasmic reticulum | Q36428783 | ||
The crystal structure of hydroxyapatite in dental enamel as seen with the electron microscope | Q36523246 | ||
An electron microscope study of the formation of the ligament of Mytilus edulis and Pinetada radiata | Q36553881 | ||
An electron microscope study of the formation and structure of the periostracum of a gastropod, Littorina littorea | Q36558874 | ||
Neutral sites for calcium ion binding to elastin and collagen: a charge neutralization theory for calcification and its relationship to atherosclerosis | Q37473722 | ||
The molecular organization of lipids in the membrane of Escherichia coli: phase transitions | Q37495122 | ||
Opal precipitation by marine gastropods (Mollusca). | Q38589420 | ||
Solution conformation of valinomycin-potassium ion complex | Q71498106 | ||
Relationship of inorganic pyrophosphatase and alkaline phosphatase activities in hamster molars | Q71569362 | ||
Lipid-protein interactions in mitochondria. II. On the nature and biochemical significance of the interaction between phospholipids and lipid-depleted mitochondria | Q71593699 | ||
Periodic lattice images of hydroxyapatite crystals in human bone and dental hard tissues | Q71646375 | ||
Surface areas by gas adsorption on amorphous calcium phosphate and crystalline hydroxyapatite | Q71796320 | ||
Observations on phase transformation of a precipitated calcium phosphate | Q71819102 | ||
What is the turnover of bone mineral? | Q72099716 | ||
Forces between Lecithin Bimolecular Leaflets Are Due to a Disordered Surface Layer | Q72216405 | ||
Calcium binding by chondroitin sulfate | Q72293318 | ||
Amorphous/crystalline interrelationships in bone mineral | Q72313882 | ||
Piezoelectric Property of Otoliths | Q72318543 | ||
The mechanism of mitochondrial swelling. II. Pseudoenergized swelling in the presence of alkali metal salts | Q72333259 | ||
The molecular structure and some transport properties of valinomycin | Q72396820 | ||
Structure of the K+ complex with enniatin B, a macrocyclic antibiotic with K+ transport properties | Q72438655 | ||
Purification and partial characterization of a soluble elastin-like protein from copper-deficient procine aorta | Q72466661 | ||
X-ray diffraction studies on the polymorphism of phospholipids | Q73174576 | ||
Interferometric and x-ray absorption studies of bone tissue | Q73616441 | ||
Changes in Rates of Increase in Size and of Exoskeletal Production during Old Age in the Isopod Ligia oceanica (L.) | Q74212025 | ||
Histogenesis and histochemistry of pulpal calcification | Q74255399 | ||
Studies on x ray absorption and diffraction of bone tissue | Q76137662 | ||
THE AMINO ACID COMPOSITION OF PROTEINS FROM THE ORAL TISSUES. II. THE MATRIX PROTEINS IN DENTINE AND ENAMEL FROM DEVELOPING HUMAN DECIDUOUS TEETH | Q76581228 | ||
The specific binding of copper(II) to alkaline phosphatase of E. coli | Q77922926 | ||
Evolution of enzymes and the photosynthetic apparatus | Q79182309 | ||
In vivo implantation as a technique in skeletal biology | Q79385629 | ||
The amino acid chemistry of some calcified tissues | Q79465368 | ||
Effect of various metals on mineralization in vitro | Q79582138 | ||
Precipitation of metastable carbonate phases from seawater | Q80967044 | ||
Tidal Growth Increments in the Cockle Clinocardium nuttalli | Q81014388 | ||
Paleontological Evidence of Varitions in Length of Synodic Month since Late Cambrian | Q81068100 | ||
Trilobites and the origin of arthropods | Q81138167 | ||
Silica in sea water: control by silica minerals | Q81208394 | ||
Trilobite Eyes: Calcified Lenses in vivo | Q81216585 | ||
SILICON METABOLISM IN DIATOMS. VI. SILICIC ACID UPTAKE BY A COLORLESS MARINE DIATOM, NITZSCHIA ALBA LEWIN AND LEWIN(1) (2) | Q89164502 | ||
Loss of proteinpolysaccharides at sites where bone mineralization is initiated | Q93723334 | ||
Rate of helix formation by intracellular procollagen and protocollagen. Evidence for a role for disulfide bons | Q93751990 | ||
DETERMINATION OF THE APPARENT DISSOCIATION CONSTANTS OF PHOSPHORIC ACID IN SEAWATER1 | Q104203874 | ||
Factors Affecting the Aragonite: Calcite Ratios in Carbonate-Secreting Marine Organisms | Q107497030 | ||
Dissolution and precipitation of silica at low temperatures | Q109371199 | ||
Precambrian (Aphebian) microfossils from Belcher Islands, Hudson Bay | Q109566175 | ||
Calcium carbonate solubility in seawater at in situ pressures | Q109785778 | ||
Carbon isotope fractionation between dissolved bicarbonate and gaseous carbon dioxide | Q110273701 | ||
Properties of silica in water | Q112074113 | ||
Carbon and oxygen isotopic composition of mollusk shells from marine and fresh-water environments | Q112148000 | ||
Activity coefficients of bicarbonate, carbonate and calcium ions in sea water | Q112166812 | ||
Fractionation of the stable isotopes of carbon and oxygen in marine calcareous organisms—the Echinoidea. Part I. Variation of C13 and O18 content within individuals | Q112167990 | ||
Fractionation of the stable isotopes of carbon and oxygen in marine calcareous organisms—the Echinoidea. Part II. Environmental and genetic factors | Q112167991 | ||
Problems of growth and calcium deposition in reef corals | Q113400412 | ||
Catalysis, inhibition, and the calcite-aragonite problem; [Part] 1, The aragonite-calcite transformation | Q113673038 | ||
Interaction of organic compounds with calcium carbonate—I. Association phenomena and geochemical implications | Q115420959 | ||
Letter: Troponin subunit interactions | Q47930756 | ||
Molecular model for elastin structure and function | Q47936912 | ||
Hydrazine-deproteinated bone mineral. Physical and chemical properties | Q48000854 | ||
Fish Otoliths: Daily Growth Layers and Periodical Patterns | Q50581929 | ||
Coral chronometers: seasonal growth bands in reef corals. | Q51106987 | ||
Systematic Relationships between Carbon and Oxygen Isotopes in Carbonates Deposited by Modern Corals and Algae. | Q51107397 | ||
Fieldiana. Geology | Q51473382 | ||
Quantitative histochemistry of cartilage. Alkaline phosphatase and glucose-6-phosphate dehydrogenase activity in different zones of rachitic rat cartilage during healing. | Q51680838 | ||
Membrane model for the circadian clock | Q52483603 | ||
Carbonic anhydrase catalyzed hydrolysis and decarboxylation. Kinetic studies of enzyme-catalyzed decomposition of mono- and disubstituted derivatives of carbonic acid. | Q52926270 | ||
The light chains of scallop myosin as regulatory subunits. | Q53687066 | ||
Calcium translocation by cells. | Q53984664 | ||
FACTORS AFFECTING THE RATE OF CALCIFICATION IN HALIMEDA OPUNTIA (L.) LAMOUROUX AND HALIMEDA DISCOIDEA DECAISNE(1). | Q54017225 | ||
Facilitated proton transfer in enzyme catalysis. It may have a crucial role in determining the efficiency and specificity of enzymes. | Q54106752 | ||
Gene Triplication deduced from the Tertiary Structure of a Muscle Calcium Binding Protein | Q54197284 | ||
Electron microscopy of dental enamel: Analysis of crystal lattice images | Q54288347 | ||
Studies on the formation of two- and three-stranded polyribonucleotides. | Q55037174 | ||
ENVIRONMENTAL AND BIOLOGICAL CONTROLS ON BIVALVE SHELL MINERALOGY | Q56157845 | ||
CARBONIC ANHYDRASE IN MOLLUISCS | Q56174860 | ||
STUDIES ON SHELL FORMATION. V. THE INHIBITION OF SHELL FORMATION BY CARBONIC ANHYDRASE INHIBITORS , | Q56176363 | ||
INFLUENCE OF CARBONIC ANHYDRASE INHIBITORS ON SHELL GROWTH OF A FRESH-WATER SNAIL, PHYSA HETEROSTROPHA | Q56177863 | ||
FINE STRUCTURE AND COMPOSITION OF A SILICEOUS SPONGE SPICULE | Q56184364 | ||
ROLE OF SYMBIOTIC ALGAE (ZOOXANTHELLAE) IN CORAL CALCIFICATION | Q56184626 | ||
Silica, diatoms, and Cenozoic radiolarian evolution | Q56874470 | ||
EFFECT OF PRESSURE ON CARBONIC ACID, BORIC ACID, AND THEpH IN SEAWATER1 | Q56961140 | ||
Amino Acid composition of planktonic foraminifera: a paleobiochemical approach to evolution | Q57088758 | ||
[On the structure of organic matrixes of molluscan shells] | Q57155614 | ||
Mineralization processes in molluscs and their paleontological significance | Q57155731 | ||
Carbonate compensation depth: relation to carbonate solubility in ocean waters | Q57228758 | ||
Soluble intracrystalline polysaccharides from coccoliths of Coccolithus huxleyi (Lohmann) Kamptner (I) | Q57228829 | ||
Microarchitecture and deposition of gastropod nacre | Q57229023 | ||
Calcium carbonate in medullary bone | Q57229052 | ||
Methane-derived marine carbonates of pleistocene age | Q57229123 | ||
The mineral substance of bones | Q57229314 | ||
Crystallographic analysis of the coccolith ofCoccolithus huxleyi | Q57229375 | ||
Calcium carbonate deposition by coralline algae and corals in relation to their roles as reef-builders | Q57229623 | ||
FORMATION OF A THREE-STRANDED POLYNUCLEOTIDE MOLECULE | Q57484218 | ||
Basis for Skeletal Plasticity among Reef-building Corals | Q58832759 | ||
A Lattice Distortion of Alkali Chloride Crystals in the Presence of Nucleoprotein Microfibrils | Q58939333 | ||
Octacalcium Phosphate and Hydroxyapatite: Crystallographic and Chemical Relations between Octacalcium Phosphate and Hydroxyapatite | Q59053590 | ||
Production of Bladder Stones by Human T Mycoplasmas | Q59061457 | ||
Coral Growth Related to Resuspension of Bottom Sediments | Q59069929 | ||
Crystal formation and growth in bivalve nacre | Q59081684 | ||
Carbon Isotope Fractionation in the System CO2(gas)—CO2(aqueous)—HCO3−(aqueous) | Q59082492 | ||
Spiral Growth of Nacre | Q59086349 | ||
Silica Balance in the Ocean and Diagenesis | Q59088593 | ||
Formation and structure of the periostracum inLymnaea stagnalis | Q70470903 | ||
Silicon: An Essential Element for the Chick | Q70514015 | ||
Texture and Composition of Bone | Q70557632 | ||
Study of bone mineralization at the microscopic level using an electron probe microanalyser | Q70641960 | ||
Stromatolites: Characteristics and utility | Q70642632 | ||
Precipitation of calcium phosphates from electrolyte solutions. I. Study of the precipitates in the physiological pH region | Q70666245 | ||
Studies of human iliac crest cartilage. II. Proteinpolysaccharides of normal tissue | Q70666252 | ||
Calorimetric properties of bound water in protein solutions | Q70725857 | ||
Crystal chemistry of hydroxyapatite. Its relation to bone mineral | Q70912813 | ||
Crystallographic evaluation of enamel from carious and noncarious teeth | Q70994817 | ||
X-ray diffraction studies of polysaccharide sulphates: Double helix models for κ- and ι-carrageenans | Q71217907 | ||
Ultrastructural study of inorganic substances in atherosclerotic aorta tissue | Q71220121 | ||
The physicochemical basis of the functioning of biological membranes: dynamic conformational properties of enniatin B and its K+ complex in solution | Q71242807 | ||
Thermochemical studies on amorphous calcium phosphate | Q71444138 | ||
The uptake of calcium-45 in the acellular-boned toadfish | Q71475910 | ||
FACTORS CONTROLLING CALCIFICATION IN VITRO: THE CALCIUM PHOSPHATE RATIO. | Q46289060 | ||
MINERALIZATION OF KERATIN AND ITS COMPARISON WITH THE ENAMEL MATRIX. | Q46290654 | ||
Calcification in a marine coccolithophorid | Q46290983 | ||
Mechanisms of calcification: role of collagen, polyphosphates, and phosphatase | Q46293003 | ||
STUDIES ON THE BIOCHEMISTRY AND FINE STRUCTURE OF SILICA SHELL FORMATION IN DIATOMS. II. THE STRUCTURE OF THE CELL WALL OF NAVICULA PELLICULOSA (BRÉB.) HILSE. | Q46342518 | ||
Studies on the biochemistry and fine structure of silica-shell formation in diatoms : Chemical Changes in the wall of Navicula pelliculosa during its formation | Q46500527 | ||
Experimental calcification in a number of species | Q46936617 | ||
AXIAL FILAMENT OF SILICIOUS SPONGE SPICULES, ITS ORGANIC COMPONENTS AND SYNTHESIS. | Q47675737 | ||
Multiple molecular forms of carbonic anhydrase in erythrocytes | Q47687941 | ||
Proposed Mechanism for the Biological Assembly of Collagen Triple Helix | Q47758410 | ||
Mollusk shell: daily growth lines | Q47769830 | ||
Temperature measurements from oxygen isotope ratios of fish otoliths | Q47781478 | ||
The "ancient history" of bone | Q47806902 | ||
Additional evidence for the binding of calcium ions to elastin at neutral sites | Q47850692 | ||
The Amino-Acid Sequence of the Alkali Light Chains of Rabbit Skeletal-Muscle Myosin | Q47856179 | ||
Homology of myosin light chains, troponin-C and parvalbumins deduced from comparison of their amino acid sequences | Q47866565 | ||
Hydrophobic bonding and accessible surface area in proteins | Q47881268 | ||
Native collagen has a two-bonded structure | Q47883695 | ||
Collagen polymorphism: characterization of molecules with the chain composition (alpha 1 (3)03 in human tissues | Q47890870 | ||
The amino acid sequence of rabbit skeletal muscle troponin C: gene replication and homology with calcium-binding proteins from carp and hake muscle | Q47907639 | ||
The sub-cellular location of inter-chain disulfide bond formation during procollagen biosynthesis by embryonic chick tendon cells | Q47927960 | ||
Carbonates: Association with Organic Matter in Surface Seawater | Q38940564 | ||
Inhibition of the orthophosphatase and pyrophosphatase activities of human alkaline-phosphatase preparations | Q39264599 | ||
Calcitonin: A general review | Q39865960 | ||
A review of recent advances in the chemistry of calcifying cartilage and bone matrix. | Q39884713 | ||
Molecular control mechanisms in muscle contraction | Q39928444 | ||
Carbonic anhydrase: isoenzymes, properties, distribution, and functional significance | Q39956836 | ||
Chemical aspects of the matrix concept in calcified tissue organisation | Q39974098 | ||
Calcified tissues in the earliest vertebrates | Q39980245 | ||
Recent progress in the chemistry, crystal chemistry and structure of the apatites | Q39984828 | ||
Enthalpy-entropy compensation phenomena in water solutions of proteins and small molecules: A ubiquitous properly of water | Q39992903 | ||
Cellular differentiation in skeletal tissues | Q39994544 | ||
The locus of initial calcification in cartilage and bone | Q40001520 | ||
The isolation and amino acid composition of the enamel proteins of erupted bovine teeth | Q41925850 | ||
A survey of the interaction of calcium ions with mitochondria from different tissues and species | Q42047948 | ||
The Cu2+-Alkaline Phosphatase of Escherichia coli | Q43462255 | ||
Hydroxyproline stabilizes the triple helix of chick tendon collagen | Q43510618 | ||
A fine structural study on the extracellular activity of alkaline phosphatase and its role in calcification | Q43539624 | ||
Ultrastructural observations on the calcification of human dental pulp | Q43637894 | ||
Temperature-induced transitions of function and structure in sarcoplasmic reticulum membranes | Q45222027 | ||
Electron microprobe measurements of bone mineralization rate in vivo | Q46282175 | ||
The effect of tetracycline and oxytetracycline on the formation of biological apatite | Q46283106 | ||
Studies of the mechanism of biological calcification. IV. Ultrastructural analysis of calcifying tendon matrix | Q46283119 | ||
Quantitative analysis on the rate of secondary bone mineralization | Q46283938 | ||
Relationship between pyrophosphate, amorphous calcium phosphate and other factors in the sequence of calcification in vivo. | Q46284113 | ||
Mineralization in the chick embryo. I. Monohydrogen phosphate and carbonate relationships during maturation of the bone crystal complex | Q46284124 | ||
Phospholipid—Calcium Phosphate Complex: Enhanced Calcium Migration in the Presence of Phosphate | Q46284412 | ||
Sequential coccolith morphogenesis in Hymenomonas carterae | Q46284517 | ||
The formation and growth of the prismatic layer ofPinctada radiata | Q46284783 | ||
Silicon: A Possible Factor in Bone Calcification | Q46285506 | ||
Studies of the mechanism of biological calcification. I. Kinetic properties of the in vitro calcification of collagen-containing matrix | Q46285523 | ||
Spiral growth of the laminar shell of the brachiopod Crania | Q46285570 | ||
Carbonic anhydrase and mobilisation of calcium reserves in the mantle of lamellibranchs | Q46285753 | ||
Dynamic state of calcium reserves in freshwater clam mantle | Q46285761 | ||
The kinetics of mineralization in vitro. I. The nucleation properties of 640-Å collagen at 25° | Q46285982 | ||
Are mitochondria directly involved in biological mineralisation? The mitochondrion and the origin of bone | Q46286460 | ||
The influence of the periostracum on the shell structure of bivalve molluscs | Q46286466 | ||
An electron microscope study of the formation of the nacreous layer in the shell of certain bivalve molluscs | Q46286481 | ||
Are mitochondria directly involved in biological mineralisation? | Q46286487 | ||
Mitochondrial granules in chondrocytes | Q46286510 | ||
The inhibition of calcium hydroxypatite crystal growth by polyphosphonates and polyphosphates | Q46286515 | ||
Amino acids at the nucleating site in mineralizing elastic tissue | Q46286522 | ||
Calcium carbonate (calcite) as a separate phase besides calcium phosphate apatite in medullary bone of laying hens | Q46286582 | ||
Mineral deposition in collagenin vitro | Q46286718 | ||
Ultrastructure and inferred calcification of the mature and developing nacre in bivalve mollusks | Q46287064 | ||
Experimental factors that influence collagen calcificationin vitro | Q46287180 | ||
Histochemical aspects of the differentiation of adventitious cartilage on the membrane bones of the embryo chick | Q46287380 | ||
Comparative studies of the organic matrices of invertebrate mineralized tissues | Q46287641 | ||
The role of complexed heavy metals in initiating the mineralizing of "elastin" and the precipitation of mineral from solution | Q46288138 | ||
Influence of Oxygen Concentration and Mechanical Factors on Differentiation of Connective Tissues in vitro | Q59094803 | ||
Calcification in vitro of Human Aortic Tissue | Q59095725 | ||
Role of myosin light chains in calcium regulation | Q59095850 | ||
Fossil Bivalve Shells indicate Longer Month and Year in Cretaceous than Present | Q59096161 | ||
Phosphorite deposits on the sea floor off southern California | Q61031893 | ||
The interaction of polynucleotides with cations | Q62022408 | ||
Protistologica | Q62023420 | ||
The amino acid and sugar composition of diatom cell-walls | Q62475318 | ||
Siliceous Algal and Bacterial Stromatolites in Hot Spring and Geyser Effluents of Yellowstone National Park | Q63105614 | ||
Cytochemical localization of calcium in the mantle epithelium of Lymnaea stagnalis | Q64901191 | ||
Troponin and Parvalbumin Calcium Binding Regions Predicted in Myosin Light Chain and T4 Lysozyme | Q66907974 | ||
Biological Clocks of the Tidal Zone | Q66911241 | ||
Investigation of the mechanism of ligand binding with cobalt(II) human carbonic anhydrase by hydrogen-1 and fluorine-19 nuclear magnetic resonance spectroscopy | Q67249650 | ||
Mucopolysaccharides and mucoproteins of calf scapula | Q68402669 | ||
Glycosaminoglycans of the odontoblast-predentine layer in dentinogenically active porcine teeth | Q68516220 | ||
The composition of bovine cartilage and bone | Q68569469 | ||
Calcium phosphate formation in vitro. II. Effects of environment on amorphous-crystalline transformation | Q68616253 | ||
Kinetics of carbonic anhydrase-inhibitor complex formation. a comparison of anion- and sulfonamide-binding mechanisms | Q68638210 | ||
The non symbiotic origin of mitochondria | Q68645814 | ||
Factors affecting the precipitation of calcium phosphate in vitro | Q68661383 | ||
Formation of interchain disulfide bonds and helical structure during biosynthesis of procollagen by embryonic tendon cells | Q68689127 | ||
The effect of galactose on bone metabolism | Q68691309 | ||
Acid phosphatase in the mantle of the shell-regenerating snail Helisoma duryi duryi | Q68787243 | ||
Release of calcium induced by 'depolarisation' of the sarcoplasmic reticulum membrane | Q69033503 | ||
Elementary processes in the hydrolysis of ATP by sarcoplasmic reticulum membranes | Q69047218 | ||
The structure of some bivalve shell carbonates prepared by ion-beam thinning | Q69198140 | ||
Crystal structure of human carbonic anhydrase C | Q69371562 | ||
Crystal Structure of Human Erythrocyte Carbonic Anhydrase C. VI. The Three-dimensional Structure at High Resolution in Relation to Other Mammalian Carbonic Anhydrases | Q69378420 | ||
Comparative chemistry of amorphous and apatitic calcium phosphate preparations | Q69454229 | ||
An electron microscopic study of the formation of amorphous calcium phosphate and its transformation to crystalline apatite | Q69534622 | ||
Retention of 90Sr in human bone at different ages and the resulting radiation doses | Q69720903 | ||
Organochlorine residues, eggshell thinning and hatching success in British sparrowhawks | Q69821072 | ||
Lipids of bovine enamel and dentin and human bone | Q69927882 | ||
The catalytic versatility of erythrocyte carbonic anhydrase. II. Kinetic studies of the enzyme-catalyzed hydration of pyridine aldehydes | Q69994402 | ||
An electron microscopic study of myofilament calcium binding sites in native, EGTA-chelated and calcium reloaded glycerolated mammalian skeletal muscle | Q70012412 | ||
Histochemical studies on calcified tissues. I. Amino acid histochemistry of foetal calf and human enamel matrix | Q70020648 | ||
Proterozoic stromatolite zonation | Q70408480 | ||
Precipitation of calcium phosphates from electrolyte solutions. II. The formation and transformation of the precipitates | Q70440551 | ||
Lipophilia of enamel matrix. A chemical investigation of the neutral lipids and lipophilic proteins of enamel | Q70470899 | ||
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 1-112 | |
P577 | publication date | 1976-01-01 | |
P1433 | published in | Topics in Current Chemistry | Q2443282 |
P1476 | title | Molecular mechanisms on carbonate, phosphate, and silica deposition in the living cell | |
P478 | volume | 64 |
Q46278837 | Otoconial Formation in the Fetal Rat |
Q36077624 | The Widespread Prevalence and Functional Significance of Silk-Like Structural Proteins in Metazoan Biological Materials. |
Q41367993 | Ultrahistochemical localization of Na+-K+ ATPase, Ca2+-ATPase and alkaline phosphatase activity in a calcium-transporting epithelium of a crustacean during moulting |
Q59089924 | Uranium anomaly in Black Sea sediments |
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