人胎盘组织液氨基氮含量检测方法的建立

目的：建立检测人胎盘组织液氨基氮含量的方法,为产品质量控制和生产工艺稳定性提供判断手段。方法：加入福尔马林溶液后,以麝香草酚蓝为指示剂,用NaOH滴定液滴定。结果：当福尔马林溶液为中性、NaOH滴定液浓度为0.04mol/L时,甲醛滴定氨基氮的方法可靠。结论：本方法回收率高,操作简便,可以作为检测人胎盘组织液氨基氮含量的方法。     

The buoyant and potentiometric titrations of human immuno-gamma globulin.

The buoyant density and potentiometric hydrogen ion titration curves of human immuno-gamma globulin in 3M cesium chloride have been recorded. In addition, the amino acid analysis of the IgG employed has been completed. The hydration of the protein and the variation of the hydration with pH have been calculated from the buoyant density data. The potentiomtric hydrogen ion titration curve has been employed to estimate the intrinsic pK′s of the acidic and histidyl residues of the molecule, and to confirm the hypothesis that it does in fact conform to the oil drop model of protein conformation. Correlations have been drawn between the three sets of data in the following manner. The results of the potentiometric hydrogen ion titration have been checked against the amino acid analysis to determine whether the numbers of groups observed to titrate and the numbers of groups observed in the amino acid analysis do correspond. Second, previous hypotheses as to the direct correlation between potentiometric hydrogen ion titration behaviour and buoyant density titration behaviour have been investigated and substantially confirmed.     

N-Labelled proteins by cell-free protein synthesis. Strategies for high-throughput NMR studies of proteins and protein-ligand complexes

[(15)N]-heteronuclear single quantum coherence (HSQC) spectra provide a readily accessible fingerprint of [(15)N]-labelled proteins, where the backbone amide group of each nonproline amino acid residue contributes a single cross-peak. Cell-free protein synthesis offers a fast and economical route to enhance the information content of [(15)N]-HSQC spectra by amino acid type selective [(15)N]-labelling. The samples can be measured without chromatographic protein purification, dilution of isotopes by transaminase activities are suppressed, and a combinatorial isotope labelling scheme can be adopted that combines reduced spectral overlap with a minimum number of samples for the identification of all [(15)N]-HSQC cross-peaks by amino acid residue type. These techniques are particularly powerful for tracking [(15)N]-HSQC cross-peaks after titration with unlabelled ligand molecules or macromolecular binding partners. In particular, combinatorial isotope labelling can provide complete cross-peak identification by amino acid type in 24 h, including protein production and NMR measurement.     

Molecular titration and ultrasensitivity in regulatory networks

Protein sequestration occurs when an active protein is sequestered by a repressor into an inactive complex. Using mathematical and computational modeling, we show how this regulatory mechanism (called “molecular titration”) can generate ultrasensitive or “all-or-none” responses that are equivalent to highly cooperative processes. The ultrasensitive nature of the input-output response is mainly determined by two parameters: the dimer dissociation constant and the repressor concentration. Because in vivo concentrations are tunable through a variety of mechanisms, molecular titration represents a flexible mechanism for generating ultrasensitivity. Using physiological parameters, we report how details of in vivo protein degradation affect the strength of the ultrasensitivity at steady state. Given that developmental systems often transduce signals into cell-fate decisions on timescales incompatible with steady state, we further examine whether molecular titration can produce ultrasensitive responses within physiologically relevant time intervals. Using Drosophila somatic sex determination as a developmental paradigm, we demonstrate that molecular titration can generate ultrasensitivity on timescales compatible with most cell-fate decisions. Gene duplication followed by loss-of-function mutations can create dominant negatives that titrate and compete with the original protein. Dominant negatives are abundant in gene regulatory circuits, and our results suggest that molecular titration might be generating an ultrasensitive response in these networks.     

Nuclear magnetic resonance titration curves of histidine ring protons. Ribonuclease S-peptide and S-proteins.

The histidine C-2 proton NMR titration curves of ribonuclease S-peptide (residues 1 to 20) and S-protein (residues 21 to 124) are reported. Although S-protein contains 3 histidine residues, four discrete resonances are observed to titrate. One of these arises from the equivalent histidine residues of unfolded S-protein. The variation in area of the four resonances indicate that there is a reversible pH-dependent equilibrium between the folded and unfolded forms of S-protein, with some unfolded material being present at most pH values. Two of the resonances of the folded S-protein can be assigned to 2 of the histidine residues, 48 and 105, from the close similarity of their titration curves to those in ribonuclease. These similarities indicate a homology of portions of the folded conformation of S-protein to that of ribonuclease in solution. These results indicate that the complete amino acid sequence is not required to produce a folded conformation similar to the native globular protein, and they appear to eliminate the possibility that proteins fold from their NH2 terminus during protein synthesis. The low pH inflection present in the titration curve assigned to histidine residue 48 in ribonuclease is absent from this curve in S-protein. This is consistent with our previous conclusion that this inflection arises from the interaction of histidine 48 with aspartic acid residue 14, which is also absent in S-protein. The third titrating resonance of native S-protein is assigned to the remaining histidine residue at position 119. The properties of this resonance are not identical with either of the titration curves of the active site histidine residues 12 and 119 of ribonuclease. The resonance assigned to histidine 119 is the only one significantly affected on the addition of sodium phosphate to S-protein, indicating that some degree of phosphate binding occurs. In both the absence and presence of phosphate this curve also lacks the low pH inflection observed in the histidine 119 NMR titration curve in ribonuclease. This difference presumably arise from a conformational between ribonuclease and the folded S-protein involving a carboxyl group.     

An NMR method to characterize multiple water compartments on mammalian collagen

A molecular model is proposed to explain water 1H NMR spin-lattice relaxation at different levels of hydration (NMR titration method) on collagen. A fast proton exchange model is used to identify and characterize protein hydration compartments at three distinct Gibbs free energy levels. The NMR titration method reveals a spectrum of water motions with three well-separated peaks in addition to bulk water that can be uniquely characterized by sequential dehydration. Categorical changes in water motion occur at critical hydration levels h (g water/g collagen) defined by integral multiples N = 1, 4 and 24 times the fundamental hydration value of one water bridge per every three amino acid residues as originally proposed by Ramachandran in 1968. Changes occur at (1) the Ramachandran single water bridge between a positive amide and negative carbonyl group at h1 = 0.0658 g/g, (2) the Berendsen single water chain per cleft at h2 = 0.264 g/g, and (3) full monolayer coverage with six water chains per cleft level at h3 = 1.584 g/g. The NMR titration method is verified by comparison of measured NMR relaxation compartments with molecular hydration compartments predicted from models of collagen structure. NMR titration studies of globular proteins using the hydration model may provide unique insight into the critical contributions of hydration to protein folding.     

桑寄生凝集素的纯化及部分性质研究

利用DEAE一纤维素柱盐离子浓度梯度洗脱,再经猪胃粘蛋白-Sepharose 4 B亲和柱可以从中药桑寄生中分离纯化出桑寄生凝集素。经pH8.9,Tris-EDTAN_2a-borate的PACE和SDS-PAGE测定均呈现单一蛋白带,测得其分子量为67 500,中性糖含量为14.6％,DNS法测得N-末端氨基酸为缬氨酸。氨基酸组成分析表明,该凝集素富含酸性氨基酸,而碱性氨基酸含量较少,不含精氨酸。当凝集素浓度为15.6μg/mL时,即可凝集兔红细胞,而对人的A、B、O型血细胞,凝集素浓度高达1000μg/mL,也不发生凝集反应。Gal、GalNAc、山梨糖、岩藻糖和松三糖对凝集兔红细胞的能力有抑制作用。桑寄生凝集素是一种促有丝分裂原,对猪血淋巴细胞的转化率达78％,细胞分裂比率为11.2％。     

A novel spectroscopic titration method for determining the dissociation constant and stoichiometry of protein-ligand complex.

We offer a new titration protocol for determining the dissociation constant and binding stoichiometry of protein-ligand complex, detectable by spectroscopic methods. This approach neither is limited to the range of protein or ligand concentrations employed during titration experiment nor relies on precise determinations of the titration "endpoint," i.e., the maximal signal changes upon saturation of protein by ligand (or vice versa). In this procedure, a fixed concentration of protein (or ligand) is titrated by increasing volumes of a stock ligand (or protein) solution, and the changes in the spectroscopic signal are recorded after each addition of the titrant. The signal for interaction between protein and ligand first increases, reaches a maximum value, and then starts decreasing due to dilution effect. The volume of the titrant required to achieve the maximum signal changes is utilized to calculate the dissociation constant and the binding stoichiometry of the protein-ligand complex according to the theoretical relationships developed herein. This procedure has been tested for the interaction of avidin with a chromophoric biotin analogue, 2-(4'-hydroxyazobenzene)benzoic acid by following the absorption signal of their interaction at 500 nm. The widespread applicability of this procedure to protein-ligand complexes detected by other spectroscopic techniques and its advantages over conventional methods are discussed.     

In vivo engineering of proteins with nitrogen-containing tryptophan analogs

Recently, it has become possible to reprogram the protein synthesis machinery such that numerous noncanonical amino acids can be translated into target sequences yielding tailor-made proteins. The canonical amino acid tryptophan (Trp) encoded by a single nucleotide triplet (UGG) is a particularly interesting target for protein engineering and design. Trp-residues can be substituted with a variety of analogs and surrogates generated biosynthetically or by organic chemistry. Among them, nitrogen-containing tryptophan analogs occupy a central position, as they have distinct chemical properties in comparison with aliphatic amines and imines. They resemble purine bases of DNA and share their capacity for pH-sensitive intramolecular charge transfer. These special properties of the analogs can be directly transmitted into related protein structures via in vivo ribosome-mediated translation. Proteins expressed in this way are further endowed with unique properties like new spectral, altered redox and titration features or might serve as useful biomaterials. We present and discuss current works and future developments in protein engineering with nitrogen-containing tryptophan analogs and related compounds as well as their relevance for academic and applicative research.The term noncanonical amino acid refers to an amino acid that does not belong, in contrast to a canonical amino acid, to the genetically encoded, proteinogenic amino acids. The term analog defines a strict isosteric exchange of a canonical/noncanonical amino acid (e.g., tryptophan/azatryptophan), while the term surrogate defines a nonisosteric change (e.g., tryptophan/azulene). Mutant denotes a protein in which the wild-type sequence was changed by site-directed mutagenesis (codon manipulation on the DNA level) within the repertoire of the standard amino acids. Variant denotes a protein in which one or more canonical amino acids derived from a wild-type or a mutant sequence were replaced by a noncanonical one (expanded amino acid repertoire, codon reassignment on the protein translation level).     

A method for determining the adenosine triphosphatase content of energy-transducing membranes. reaction of 4-chloro-7-nitrobenzofurazan with the adenosine triphosphatase of bovine heart submitochondrial particles.

1. Modification of a single amino acid residue by introduction of the nitrobenzofurazan group inactivates mitochondrial ATPase (adenosine triphosphatase) when membrane-bound in submitochondrial particles. The similarity between the reactions of both membrane-bound and isolated ATPase with 4-chloro-7-nitrobenzofurazan indicates that the single essential tryosine residue identified in the isolated enzyme [Ferguson, Loyd, Lyons & Radda (1975) Eur. J. Biochem. 54, 117-126] Is also a feature of the membrane-bound ATPase. 2. A procedure is presented for estimating the ATPase content of the inner mitochondrial membrane. It is based on the specificity of the incorporation of the nitrobenzofurazan group, and the ready removal of this group by compounds that contain a thiol group. This method indicates that 8.5% of the membrane protein is ATPase. The procedure should be applicable to the titration of the energy-transducing ATPases of bacterial plasma membranes and of the thylakoid membranes of chloroplasts. 3. Combination of the data obtained on the ATPase content of the bovine heart inner mitochondrial membrane with a titration of the cytochrome bc1 complex with antimycin indicates that these two components of the membrane are present in approximately equal amounts.     

Gas chromatographic determination of total amino acids and protein in sediments using the ninhydrin-CO2 reaction

A sensitive modification of the ninhydrin-CO₂ method involving the gas chromatographic determination of the total protein and amino acid content of sediment is described. The method gives a linear response over the amino acid concentration range 10^?5 M to 4 × 10^?2 M. It can be used for whole sediment, hydrolysates and interstitial water. The performance of the method is compared with the fluorescamine method for primary amines.     

Limitations of pH-potentiometric titration for the determination of the degree of deacetylation of chitosan

The degree of deacetylation (DDA) of chitosan determines the biopolymer's physico-chemical properties and technological applications. pH-Potentiometric titration seems to offer a simple and convenient means of determining DDA. However, to obtain accurate pH-potentiometric DDA values, several factors have to be taken into consideration. We found that the moisture content of the air-dry chitosan samples can be as high as 15%, and a reasonable fraction of this humidity cannot be removed by ordinary drying. Corrections have to be made for the ash content, as in some samples it can be as high as 1% by weight. The method of equivalence point determination was also found to cause systematic variations in the results and in some samples extra acid as high as 1 mol% of the free amino content was also identified. To compensate for the latter effect, the second equivalence point of the titration has to be determined separately and the analytical concentration of the acid be corrected for it. All the corrections listed here are necessary to obtain DDA values that are in reasonable agreement with those obtained from (1)H NMR and IR spectroscopic measurements. The need for these corrections severely limits the usefulness of pH-metry for determining accurate DDA values and thus potentiometry is hardly able to compete with other standard spectroscopic procedures, that is, (1)H NMR spectroscopy.     

Quantification of protein calibrants by amino acid analysis using isotope dilution mass spectrometry

This work demonstrates that amino acid analysis based on isotope dilution mass spectrometry (IDMS) can be applied to quantify proteins having different complexities and natures. Five proteins and one decapeptide were selected for the study: C-reactive protein (CRP), beta-2-microglobulin (B2 M), cystatine C (CysC), human serum albumin (HSA), Ara h1, and angiotensin I. The quantification was based on the determination of four amino acids, proline (Pro), isoleucine (Ile), valine (Val), and phenylalanine (Phe) within a working range between 5 and 100 pmol/injection of each amino acid, after 60 min digestion with HCl at 150 °C. The amino acids were selected taking into account their abundance in the protein sequence and to include the more difficult to break peptide bonds. Quantification of the protein amounts calculated from each amino acid is consistent, indicating that the method is working reliably. This consistency points to a complete hydrolysis of the proteins. The trueness of the method was proven when dry mass determination after dialysis was applied to HSA and CRP and the results were compared to those from amino acid analysis. Traceability to SI was assured by extensive characterisation of the amino acid calibrants by nuclear magnetic resonance, neutron activation analysis, and Karl Fischer titration.     

Gas chromatographic determination of total amino acids and protein in sediments using the ninhydrin-CO2 reaction

A sensitive modification of the ninhydrin-CO₂ method involving the gas chromatographic determination of the total protein and amino acid content of sediment is described. The method gives a linear response over the amino acid concentration range 10^–5 M to 4 × 10^–2 M. It can be used for whole sediment, hydrolysates and interstitial water. The performance of the method is compared with the fluorescamine method for primary amines.     

1H NMR study of effects of synergistic anion and metal ion binding on pH titration of the histidinyl side-chain residues of the half-molecules of ovotransferrin

Separation of ovotransferrin into C-terminal (OTf/2C) and N-terminal (OTf/2N) half-molecules has made possible the resolution of all expected histidinyl C(2)H resonances by proton nuclear magnetic resonance at 250 MHz. The chemical shift of many of the resonances decreases with increasing pH, allowing construction of titration curves, whereas a few resonances fail to titrate. On formation of the GaIIIOTf/2(C2O4) ternary complexes, two of the low-field C(2)H resonances in each half-molecule fail to titrate. This behavior implicates the imidazole groups giving rise to these resonances as ligands to the bound metal ion. A third C(2)H resonance in each half-molecule undergoes a marked reduction in pK'a on formation of the ternary complex. The imidazole group displaying this resonance is implicated in a proton-relay scheme involved in binding the synergistic anion, oxalate, and a water of hydration on the bound metal ion. The titration curves for the various imidazole resonances have been fit to a four-parameter equation involving estimation of the pK'a, the limiting chemical shift values, and a Hill constant n. Hill constants of less than 1 can be rationalized by correcting the titration curve for the charge Z on the protein as a function of pH and the work function w. The titration curve for the imidazole group in OTf/2C involved in the proton-relay scheme shows a value for n greater than 1, which suggests positive cooperativity in the titration of this residue. The basis for this behavior cannot be rationalized at this time.(ABSTRACT TRUNCATED AT 250 WORDS)     

Measurement of meal-stimulated gastric acid secretion by in vivo gastric autotitration.

Measurement of meal- stimulated gastric acid secretion using manual intragastric titration is demanding in terms of personnel and specialized equipment. In the present study, we used a new method, in vivo gastric autotitration, to determine meal-stimulated gastric acid secretion. Gastric pH was measured every 4 s before, during, and after ingestion of a standard meal in 24 healthy subjects. Placebo, ranitidine (150 mg), ranitidine (75 mg), or famotidine (10 mg) was given 1 h after the beginning of the meal. Meal-stimulated gastric acid secretion was calculated from the amount of HCl required to titrate the homogenized standard meal to pH 2 in vitro (119 mmol) and the time required for the pH of the ingested meal to decrease to pH 2 in vivo. Values for pH were also converted to acid concentration (mM), and integrated acidity was calculated from the cumulative, time-weighted means of the acid concentrations for every fourth second of the postprandial recording period. Control meal-stimulated gastric acid secretion was 60 (40-71) mmol/h (median; interquartile range), and each histamine H(2)-receptor antagonist significantly decreased secretion by approximately 50%. Meal-stimulated acid secretion correlated directly with postprandial integrated gastric acidity (r = 0.72; P = 0.0001). Thus intragastric autotitration is a convenient, reproducible method for measuring gastric acid secretion after ingestion of a solid meal and offers several advantages over manual intragastric titration.     

混合氨基酸含量测定新方法

介绍用交流示波极谱滴定法测混合氨基酸的含量。在ＫＣｌ底液中,利用ＨＣＨＯ将－ＮＨ２封闭,用ＫＯＨ标准液滴定,ＨＣＨＯ同时做指示剂,以极谱图形的敏锐变化指示终点的到过,测定结果准确。     

Active site titration of gramicidin S synthetase 2: evidence for misactivation and editing in non-ribosomal peptide biosynthesis

The catalytic competence of gramicidin S synthetase 2 (GS2) was determined by following the kinetics of PP(i) generation using active site titration measurements with [gamma-(32)P]ATP. The initial 'burst' of product formation can be correlated to the generation of the aminoacyl adenylate:enzyme complexes at the four amino acid activation domains and the subsequent aminoacylation of carrier domains, followed by a slow linear turnover of substrate due to breakdown of the intermediate. Simultaneous activation of all four amino acid substrates at a saturating concentration displayed a consumption of 8.3 ATP/GS2. In the presence of single amino acids, a binding stoichiometry higher than the anticipated two ATP per active site was obtained, implying misactivation at non-cognate domains. Breakdown of acyladenylate intermediates reflects a possible corrective mechanism by which the enzyme controls the fidelity of product formation.     

THE RELATIONSHIP BETWEEN AMINO ACID INCORPORATION INTO PROTEIN IN ISOLATED NEOCORTEX SLICES AND THE TISSUE CONTENT OF FREE AMINO ACID

Abstract— The uptake of radioactive leucine by incubated neocortex slices was found to be increased by electrical stimulation, yielding a higher content of radioactive amino acid per g fresh weight of tissue which was maintained for prolonged periods of stimulation. The increased tissue content may be associated with tissue swelling found on electrical stimulation, but the additional amino acid uptake was by an active process rather than by passive diffusion. Additions of valine (2.5–10 m m ) or tryptophan (1 m m ) to the incubation medium was found to depress the tissue leucine content. Decreasing the tissue free leucine content by incubating slices in medium containing 5 m m -valine was found to decrease the incorporation of leucine and lysine into tissue protein, indicating that under these conditions tissue free amino acid becomes rate limiting for amino acid incorporation into protein. By analogy with the properties of cerebral tissue in oitro it is suggested that electrical activity in vivo may cause localized increases in free amino acid concentration which may serve to regulate protein synthesis in conditions where the concentration of free amino acids are rate limiting.     

Maintenance and exchange of the aromatic amino acid pool in Escherichia coli

The pool of phenylalanine, tyrosine, and tryptophan is formed in Escherichia coli K-12 by a general aromatic transport system [Michaelis constant (K(m)) for each amino acid approximately 5 x 10(-7)m] and three further transport systems each specific for a single aromatic amino acid (K(m) for each amino acid approximately 2 x 10(-6)m, reference 3). When the external concentration of a particular aromatic amino acid is saturating for both classes of transport system, the free amino acid pool is supplied with external amino acid by both systems. Blocking the general transport system reduces the pool size by 80 to 90% but does not interfere with the supply of the amino acid to protein synthesis. If, however, the external concentration is too low to saturate specific transport, blocking general transport inhibits the incorporation of external amino acid into protein by about 75%. It is concluded that the amino acids transported by either class of transport system can be used for protein synthesis. Dilution of the external amino acid or deprivation of energy causes efflux of the aromatic pool. These results and rapid exchange observed between pool amino acid and external amino acids indicate that the aromatic pool circulates rapidly between the inside and the outside of the cell. Evidence is presented that this exchange is mediated by the aromatic transport systems. Mutation of aroP (a gene specifying general aromatic transport) inhibits exit and exchange of the small pool generated by specific transport. These findings are discussed and a simple physiological model of aromatic pool formation, and exchange, is proposed.