Firefly luciferase: Purification and immobilization

The state of the art of firefly luciferase research is reviewed with special emphasis on its purification and immobilization. The notion of bioluminescence and its role in APT monitoring is described. The need to purify luciferase and the advantages of immobilization are discussed. An insight into the existing methods of luciferase purification and immobilization is given. The scope of the bioluminescent assay is underlined.     

Characterization of neurotensin binding to rat gastric smooth muscle receptor sites

The binding of monoiodo 125I-Trp11-neurotensin to purified rat gastric fundus smooth muscle plasma membranes was characterized. Specific binding of ligand in subcellular fractions from rat fundus smooth muscle showed a distribution that paralleled that of several plasma membrane marker enzymes. 125I-Trp11-neurotensin binding to smooth muscle plasma membranes at 25 degrees C was maximal at 30 min, reversible and saturable. Scatchard analysis of equilibrium data indicated the existence of two classes of binding sites with dissociation constants (Kd) of 56 pmol and 1.92 nM, and corresponding binding capacities (Bmax) of 6.6 fmol/mg and 11.4 fmol/mg of membrane protein. Analogues and fragments of neurotensin competed for 125I-Trp11-neurotensin binding with a rank order of potency similar to that previously reported for their contracting effect in rat fundus strips. Na+ decreased in a concentration dependent manner the binding of labelled ligand to the high affinity site. At 100 mM, Na+ induced a 6-fold increase in the IC50 of neurotensin for inhibition of 125I-Trp11-neurotensin binding. At this concentration of Na+, the IC50 for neurotensin was 1 nM, a value close to the Kd of the low affinity site.     

Determination of choline in erythrocytes using high-resolution proton nuclear magnetic resonance spectroscopy: Comparison with a choline oxidase method

Detailed operating conditions are reported for the determination of choline in human erythrocytes using proton nuclear magnetic resonance spectroscopy in conjunction with the inversion-recovery spin-echo pulse sequence. The results of the NMR method were in excellent agreement with those obtained using an enzymatic (choline oxidase) assay; however, they were approximately three times higher than those reported using gas chromatography/mass spectrometry techniques. The differences may be partly due to the method of preparing or sampling cells since there is a distribution of choline in cells of different ages. However, choline levels were not affected by the methods used in the present study for storing or preparing cells.     

A highly sensitive fluorometric assay for "enkephalinase," a neutral metalloendopeptidase that releases tyrosine-glycine-glycine from enkephalins

A fluorogenic peptide, dansyl-D-Ala-Gly-Phe(pNO2)-Gly (DAGNPG), was synthesized as a selective substrate for the neutral metalloendopeptidase (EC 3.4.24.11) involved in enkephalin metabolism. This enzyme, designated "enkephalinase," cleaves the Gly-Phe(pNO2) peptide bond of DAGNPG (V = 0.65 mumol/mg protein/min and Km = 45 microM) leading to a fluorescence increase related to the disappearance of intramolecular quenching of the dansyl fluorescence by the nitrophenyl residue. This change was used for quantitative measurements of "enkephalinase" activity in different tissues and determination of inhibitory potency of various compounds. The substrate is not cleaved by aminopeptidase or dipeptidylaminopeptidase activities and the assay itself is rapid, convenient, and sensitive.     

A competitive displacement assay to detect saxitoxin and tetrodotoxin

An assay is described which detects saxitoxin (STX) and tetrodotoxin (TTX) by their competitive displacement of [³H]saxitoxin from its receptor in rat brain membranes. The assay has a sensitivity of 0.15 ng STX/ml and 0.8 ng TTX/ml for buffer samples. The assay was also applied to detection of these toxins in unextracted human plasma and found to have a sensitivity of 0.5 ng STX/ml and 0.6 ng TTX/ml. The competitive displacement assay appears to be the most sensitive procedure yet for detection of STX and TTX.     

Renin cleavage of a human kidney renin substrate analogous to human angiotensinogen, H-Asp-Arg-Val-Tyr-Ile-His-Pro-Phe-His-Leu-Val-Ile-His-Ser-OH, that is human renin specific and is resistant to cathepsin D

A synthetic tetradecapeptide, H-Asp-Arg-Val-Tyr-Ile-His-Pro-Phe-His-Leu-Val-Ile-His-Ser-OH, which corresponds to the 13 amino terminal residues of human angiotensinogen plus a carboxy terminal serine to replace a suggested site of carbohydrate attachment, has been shown to be a good substrate for human kidney renin. At pH 7.2 and 37 degrees C the KM or Michaelis constant was 8.4 +/- 2.9 microM, and the VM or velocity at infinite tetradecapeptide concentration was 11.3 +/- 2.4 mumol angiotensin I made per hour per milligram renin. The tetradecapeptide was highly resistant to cleavage by mouse submaxillary renin. The tetradecapeptide was also slowly cleaved by human liver cathepsin D, by rabbit lung angiotensin-converting enzyme, and by reconstituted human serum, but did not yield angiotensin I. Thus, this synthetic renin substrate should permit more specific measurement of human kidney renin activity.     

A comparison of measurements of intracellular Ca by Ca electrode and optical indicators

Squid giant axons were injected with aequorin or arsenazo III and impaled with a Ca-sensing electrode. The light output of aequorin or the spectrophotometer output when measuring arsenazo was compared with the voltage output of the electrode when the squid axon was depolarized with high-K solutions, when the seawater was made Na-free, or when the axon was tetanized for several minutes. The results from these treatments were that the optical response rose (as much as 50-fold) with all treatments known to increase Ca entry, while the electrode remained unaffected by these treatments. If axons previously subjected to Ca load are treated with electron-transport poisons such as CN, it is known that [Ca]_i rises after a time necessary to deplete ATP stores. In such axons one expects a rise of [Ca]_i in axoplasm which does not necessarily have to be uniform although the source of such Ca is the mitochondria and these are uniformly distributed in axoplasm. Under conditions of CN application, the optical signals from aequorin or arsenazo and Ca electrode output do rise together when [Ca]_i is high, but there is a region of [Ca]_i concentration where aequorin light output or arsenazo absorbance rises while electrode output does not. Axons not loaded with Ca but injected with apyrase and vanadate have mitochondria that still retain some Ca and this can be released by CN in a truly uniform manner. The results show that such a release (which is small) can be readily measured with aequorin, but again the Ca electrode is insensitive to such [Ca]_i change.     

Intracellular distribution of acridine derivatives in platelets and their suitability for cytoplasmic pH measurements

The site and mechanism of accumulation of acridine derivatives into platelets and their isolated organelles were investigated. In addition, their suitability as indicators of cytoplasmic pH was analysed. Direct microscopic observation showed that quinacrine and 9-aminoacridine are concentrated inside organelles in platelets. Using fractionation studies, the acridine derivatives were found to accumulate particularly in dense and α-granules. Uptake into these organelles is driven by a pH differential across their membrane (acidic inside). Because of their cellular distribution, acridine derivatives were found to be poor indicators of cytoplasmic pH. In contrast, a poorly permeant dicarboxylated fluorescein derivative, generated in situ by cytosolic enzymes, is shown to be a more reliable probe of intracellular pH. The results are compared with previous reports of the use of 9-aminoacridine as a cytoplasmic pH probe in platelets and of quinacrine as a selective dense-granule marker.     

An immunological approach to quantitate RNA polymerases in plant cell extracts

A polyclonal antiserum was raised against highly purified RNA polymerase II from soybean embryos. Pure RNA polymerase II was fractionated on sodium dodecyl sulfate-polyacrylamide gels and transferred onto nitrocellulose sheets, incubated with the immune antiserum and then with iodinated protein A. Autoradiograms showed that the immune antiserum recognized all subunits of RNA polymerase II. Subunits 42, 27 and 16 kdalton were particularly reactive. Application of this transfer technique to protein extracts from soybean embryos or from cultured soybean cells allowed the identification of subunits of RNA polymerase II in the extracts. Analysis of the staining of the bands on the autoradiograms for increasing amounts of pure RNA polymerase II demonstrated that the transfer was quantitative, so that standard curves could be drawn to estimate the unknown amounts of enzyme in the extracts.Abbreviations DEAE diethylaminoethyl - SDS sodium dodecyl sulfate     

Measurement of the inorganic pyrophosphate in tissues of Pisum sativum L.

Purified pyrophosphate: fructose 6-phosphate 1-phosphotransferase (EC 2.7.1.90) was used to measure the inorganic pyrophosphate in unfractionated extracts of tissues of Pisum sativum L. The fructose 1,6-bisphosphate produced by the above enzyme was measured by coupling to NADH oxidation via aldolase (EC 4.1.2.13), triosephosphate isomerase (EC 5.3.1.1) and glycerol-3-phosphate dehydrogenase (EC 1.1.1.8). Amounts of pyrophosphate as low as 1 nmol could be measured. The contents of pyrophosphate in the developing embryo of pea, and in the apical 2 cm of the roots, were appreciable; 9.4 and 8.9 nmol g^-1 fresh weight, respectively. The possibility that pyrophosphate acts in vivo as an energy source for pyrophosphate: fructose 6-phosphate 1-phosphotransferase and for UDPglucose pyrophosphorylase (EC 2.7.7.9) is considered.