Essential carboxyl residues in yeast enolase.

Yeast enolase (EC 4.2.1.11) is rapidly inactivated at pH 6.1 by three different water-soluble carbodiimides — 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide hydrochloride, 1-cyclohexyl-3-(2-morpholinoethyl)-carbodiimide metho-p-toluenesulfonate, and 1-ethyl-3-(4-azonia-4,4-dimethylpentyl)-carbodiimide iodide. Inactivation is most likely due to the modification of essential carboxyl residues at the enzyme active site.     

Phosphoglycerate mutase has essential arginyl residues

Phosphoglycerate mutase is inactivated by butanedione in borate buffer. Inactivation by 0.13 mM reagent correlates with the modification of one arginyl residue per subunit, and is prevented by either 2, 3-diphosphoglycerate or 3-phosphoglycerate. With 0.50 mM butanedione, inactivation is accompanied by the modification of three arginyl residues per subunit, two of which are protected by the combined presence of cofactor and substrate.     

Evidence for an essential role for arginyl residues for yeast phosphoglycerate kinase.

Reaction of yeast phosphoglycerate kinase with either butanedione or cyclohexanedione can result in modification of up to all 13 arginyl residues with total loss of activity; however, extrapolation to zero activity for partially modified preparations indicates that up to 7 arginyls are essential. Whereas 20 mm 3-phosphoglycerate affords partial protection of activity toward both reagents, 20 mm MgATP affords complete protection of activity and protects 2 arginyls against modification by butanedione and 1 arginyl against modification by cyclohexanedione. With butanedione the modification could be reversed with total recovery of activity, suggesting that only arginyl groups were modified, which is consistent with the amino acid analysis of the modified protein. Only at high cyclohexanedione concentrations or long reaction times was a yellow product obtained that showed loss of lysyl residues. Circular dichroism spectra show that even when all the arginyls are modified by butanedione or up to 10 modified by cyclohexanedione there is no change observed in the far or near ultraviolet, indicating that there is no detectable conformational change concomitant with modification, which is confirmed by hydrodynamic studies. It is concluded that at least one, possibly two, arginyls of yeast phosphoglycerate kinase are essential for its action on ATP.     

Collagen-induced platelet aggregation and release. I effects of side-chain modifications and role of arginyl residues

To investigate the mechanisms governing collagen interaction with blood platelets, the effects of side-chain modifications on collagen-induced platelet aggregation and release of serotonin were studied. Since many chemical modifications alter the ability of collagen to form fibers that, according to current theory, may complicate interpretation of data, we eliminated this possibility by using collagen stabilized in a native-type fibrillar structure by treatment with either glutaraldehyde or ultraviolet irradiation. Acetylation, methylation, succinylation, treatment with 2,4-dinitrofluorobenzene, 2,4,6-trinitrobenzene sulfonic acid or 1,2-cyclohexanedione, and deguanidination with hypobromite were used to modify collagen side-chain reactive groups: amino, carboxyl, hydroxyl and guanidino. Both unmodified monomeric dispersed and fibrillar collagen preparations initiated platelet aggregation and release, although the kinetics and magnitude of the response were different. Monomeric collagen which had been modified by deguanidination, methylation or succinylation, failed to polymerize in physiological conditions and did not induce platelet aggregation and release. However, none of the chemical modifications of stabilized native-type collagen fibers, except treatment with hypobromite or cyclohexanedione, had an effect on collagen-induced platelet aggregation and release. Both hypobromite and cyclohexanedione modified guanidino groups of arginyl residues. Results showed that the ability of a collagen sample to induce platelet aggregation and release of serotonin is dependent on the arginine content of fibrillar collagen.These data demonstrate that manipulation of amino, carboxyl and hydroxyl groups is unimportant as long as the native-type fibrillar structure is maintained, and that arginyl residues are directly involved in collagen-platelet interaction. Moreover, the data suggest that only the arginyl residues in the Y position of the tripeptide unit Gly-X-Y of collagen are responsible.     

A generalized,circular dichroism rule for nitrogen heterocycles attached to alditol residues

For alditol-1-yl derivatives of nitrogen heterocycles having C-1 of the alditol-1-yl group in the R configuration and having this group lying “below” the base, the sign of the Cotton effect will be negative if, for the most stable conformer, the bond to C-1 and the dipole-moment vector of the base point in the same direction, and positive if they they point in opposite directions. If the alditol-1-yl bond is essentially aligned with the dipole-moment vector of the nitrogen heterocycle, the sign of the Cotton effect is independent of the conformation. Consequently, if the dipole-moment vector of the nitrogen heterocycle and the alditol-1-yl group point in the same direction, the sign of the Cotton effect will be negative; it will be positive if the two oppose each other.     

A simplified procedure to determine tryptophan residues in proteins.

A procedure is described to determine tryptophan residues in proteins using a tryptophan reagent, 2-hydroxy-5-nitrobenzyl bromide. The method involves the treatment of the unfolded protein with the reagent in 9 m urea at acid pH; incubation of the mixture at room temperature for 2 hr and the removal of the excess reagent by centrifugation and gel filtration. The amount of tryptophan in a protein is determined from the optical density of the labeled protein at 280 and 410 nm, and from the known optical density of 1 mg/ml of the protein at 280 nm and of the reagent at 280 and 410 nm. The efficacy of the method was tested with eight proteins whose tryptophan content is known.     

Effects of nonuniform column packing in analytical gel chromatography. II. Associating solutes

Effects of nonuniform column packing on boundary profiles for selfassociating systems have been investigated by computer simulation. Migration rate of each of the interconverting solute species changes along the column as a result of nonuniform packing, and the difference in velocity of monomer and n-mer is not constant as the sample moves down the column. A greater amount of overall axial dispersion results, as compared to the constant-column case. Procedures developed in this study can be applied to any experimentally measured column nonuniformity.     

Characterization of a yeast D-mannan with an alpha-D-glucosyl phosphate residue as an important immunochemical determinant

Conditions for the reaction of concanavalin A and dextranase with glutaraldehyde have been established to give a soluble, intermolecularly cross-linked conjugate possessing both dextranase and concanavalin activities. Evidence is presented that the dextranase and concanavalin molecules are linked to each other in the conjugate. The conjugate gives a different pattern of hydrolysis products on incubation with dextran than does dextranase.     

Peroxidase activity in human red cell: a biological model for excited state molecules generation.

The presence of enzymically generated triplet acetone in red cells and energy transfer to eosin, rose bengal and 9,10-dibromoanthracene-2-sulfonate was indicate by: (1) product distribution; (2) K_ET τ_o, similar to the 2-methylpropanal/peroxidase/O₂ system; (3) correlation between hemolysis, oxygen uptake and photon emission; (4) membrane protection by energy acceptors, and (5) by comparison of the 2-methylpropanal/peroxidase/O₂ system with 2-methylpropanal/red cells/membranes/O₂ and 2-methylpropanal/acid extractable protein from red cells membrane/O₂ systems, which have a high peroxidase activity.This is the first report of a biological system producing a photohemolysis effect in the dark.     

Synthesis of potential antiprogestogens.

Acylated derivatives of 17 alpha-hydroxyprogesterone were prepared in order to test the hypothesis that dialkylamino alkyl moieties have the effect of transforming progestogens into antiprogestogens. This approach has been successful with certain estrogens. Compounds with other functional groups were synthesized to determine whether these might exert binding influence outside the area occupied by progesterone itself. The compounds were tested for competitive affinity against tritiated progesterone and receptor from rabbit uterus cytosol. The low affinity of all derivatives makes it unlikely that they would be active as antiprogestational agents.     

Association of nucleosidediphosphate kinase with microtubules.

A nucleosidediphosphate kinase activity (EC 2.7.4.6) which phosphorylates GDP to GTP is present in bovine brain microtubule protein prepared by cycles of assembly-disassembly. This activity persists through 5 cycles of assembly-disassembly and sediments with microtubules in sucrose density gradients, but is not associated with the tubulin dimer. It is proposed that the kinase is an integral part of the microtubule and is therefore a microtubule associated protein (MAP). Several isozymes of nucleosidediphosphate kinase exist in our preparations with a pI 7.6 form predominant. It may be speculated that this enzyme affects tubulin assembly $\text{in vivo}$ by modulating the $\text{GTP}\text{GDP}$ ratio in the microtubule environment.     

Polyacrylamide gel staining with Fe2+-bathophenanthroline sulfonate.

The utilization of Fe²⁺-bathophenanthroline sulfonate for the detection and quantitation of protein bands in cylindrical polyacrylamide gels is described. Two procedures are outlined. The first procedure is used in standard disc electrophoresis and involves fixing the protein with trichloroacetic acid, staining with Fe²⁺-bathophenanthroline sulfonate, and destaining with an ethanol:acetic acid solution. The second protocol reported is utilized with sodium dodecyl sulfate-containing gels. After electrophoresis, the gels are incubated with a methanol: acetic acid solution to remove the sodium dodecyl sulfate. The gels are then stained with Fe²⁺-bathophenanthroline sulfonate and destained with a methanol: acetic acid solution. Excellent background clarity is observed with both methods. Densitometric areas of the stained protein bands are linear to 60 μg of bovine serum albumin, and the limit of detection of this protein is 1 μg. Because of its rapidity of staining and destaining, good sensitivity, and reproducibility of stain intensity, Fe²⁺-bathophenanthroline sulfonate is an excellent protein stain.     

Isolation and primary structure of endorphin from salmon pituitary glands.

Endorphin has been isolated from an acid acetone extract of the pituitary of the salmon $\text{Oncorhynchus}\text{keta}$ by ion exchange chromatography and gel filtration. Sequence analysis revealed it to be a nonacosapeptide with following primary structure: Ac-Tyr-Gly-Gly-Phe-Met-Lys-Pro-Tyr-Thr-Lys-Gln-Ser-His-Lys-Pro-Leu-Ile-Thr-Leu-Leu-Lys-His- Ile-Thr-Leu-Lys-Asn-Glu-Gln-OH. It appears that the amino terminal segment which is necessary for analgesic activity is conserved through the evolution of vertebrate except for the blocking of the amino terminal of salmon endorphin.     

Conformation of 1- and 3-deazaadenosines in solution as studied by 1H nuclear magnetic resonance spectroscopy.

¹H nuclear magnetic resonance spectra of 1 - (II) and 3-deazaadenosines (III) together with adenosine (I) in dimethylsulfoxide have been examined. Features of coupling constants indicate that the furanose rings of I, II, and III have similar conformational preferences and that conformations about the 4′-C–5′-C bond are preferentially $\text{gauche-gauche}$. Nuclear Overhauser effect and spin-lattice relaxation-time measurements demonstrate that II predominantly adopts the $\text{syn}$-conformation similar to that of I, whereas that of III has a greater $\text{anti}$ (freely rotating) component. The results suggest that the $\text{syn}$-conformation in II as well as I is stabilized presumably through a hydrogen bond between the 3-N and 5′-hydroxyl group.     

Dihydroorotase from Clostridium oroticum is an allosteric enzyme.

Dihydroorotase from $\text{Clostridium}$$\text{oroticum}$ exhibits allosteric behavior with respect to both of its substrates. L-dihydroorotate dependence reflects a positive homotropic interaction for which the Hill coefficient is 1.3–1.6, depending upon the preparation. Conversely, a negative homotropic response is observed when L-ureidosuccinate serves as substrate, as characterized by a Hill coefficient of 0.65–0.75. Interaction between L-dihydroorotate binding sites is a labile characteristic lost during enzyme purification. Negative cooperativity of ureidosuccinate binding appears to be more stable. The effects of purification and medium are also discussed.     

The addition of bisulfite to 5-fluorouracil. Evidence for a change in rate determining step

The kinetics of bisulfite addition to 5-fluorouracil were studied as a function of increasing concentrations of potential general acids. Values of $\text{k}{}_{\mathrm{obsd}}\text{[}\text{SO}{}_3{}^{\mathrm{=}}\text{]}$ measured at 25°C and ionic strength 1.0 M increased linearly and then became invariant with increasing concentrations of either HSO₃^? or (OHCH₂CH₂)₂N⁺C(CH₂OH)₃ HCl (BisTris⁺HCl). A small kinetic hydrogen-deuterium isotope effect ($\text{k}{}_{\mathrm{HS}}\text{k}{}_{\mathrm{DS}}\text{= 1.10}$) was observed for the general acid catalysed portion of the addition reaction. The kinetics of bisulfite elimination from 5-fluoro-5,6-dihydrouracil-6-sulfonate were studied in ethanolamine buffers. As previously observed with 1,3-dimethyl-5,6-dihydrouracil-6-sulfonate, this reaction is subject to general base catalysis and exhibits a large kinetic hydrogen-deuterium isotope effect (). The kinetic results for the addition reaction are consistent with a multistep reaction pathway involving the initial formation of an oxyanion sulfite addition intermediate (II) which subsequently adds a proton and undergoes tautomerization to yield the final 5-fluoro-5,6-dihydrouracil-6-sulfonate product. Thus the elimination of bisulfite from 5-fluoro-5,6-dihydrouracil-6-sulfonate probably proceeds by an ElcB mechanism which involves, at relatively low concentrations of general base, rate determining general base catalyzed proton abstraction from carbon 5 to yield intermediate II followed by the rapid elimination of sulfite to yield 5-fluorouracil. These results may be related to both the enzymatically catalyzed dehalogenation of bromoand iodouracil and the methylation of deoxyuridylate by thymidylate synthetase.     

Neutral sucrose sedimentation of very large DNA from Bacillus subtilis. I. Effect of random double-strand breaks and centrifuge speed on sedimentation

A method is presented for preparing very large DNA from Bacillus subtilis protoplasts. When the DNA is characterized by sedimentation in neutral sucrose gradients, a fast-sedimenting component is found whose sedimentation coefficient varies with centrifuge speed. By use of [³H]thymine label for the DNA and a ¹⁴C-labeled amino acid, it is shown that less than 5% cellular material other than DNA is associated with this component. Irradiation of this DNA in solution with gamma rays forms a slower component, called the “main peak”, whose sedimentation coefficient also depends on centrifuge speed. More irradiation breaks down this main peak into even slower-sedimenting DNA; it is shown that for low doses, double-strand breaks are formed in both the B. subtilis DNA and in bacteriophage T2 DNA at the same rate linear in dose, 0.018 double-strand breaks per kilorad per mass equal to that of T2 DNA.The speed dependence of the DNA sedimenting at the main peak is compared with an approximate theory of the speed dependence of the sedimentation coefficient of linear DNA by B. H. Zimm (unpublished calculations). The comparison suggests that for sufficiently high centripedal acceleration, DNA molecules larger than a critical mass will sediment at much the same velocity. The theory, and data on the break-up of the DNA with gamma rays, are used to estimate that the DNA extracted is at least 13 times the mass of T2 DNA, and possibly larger.In the Appendix, data from the literature are put together with data taken during this work to make plausible the assumption that the usual theory for the sedimentation of DNA molecules, experimentally tested in salt solutions, may also be applied to sucrose solutions. If, in neutral sucrose gradients, the distance sedimented is proportional to a power α of the mass, the best value of α = 0.38.     

Facile assay of enzymes unique to the Calvin cycle in intact cells, with special reference to ribulose 1,5-bisphosphate carboxylase.

A procedure for the facile measurement, in intact cells, of two enzymes unique to the Calvin cycle, ribulose 1,5-bisphosphate carboxylase and phosphoribulokinase, is described. The procedure involved a simple toluene treatment to render phototrophic cells permeable to the necessary substrates, effectors, and cofactors. Whole-cell ribulose 1,5-bisphosphate carboxylase activity quantitatively approximates the activity obtained in cell-free extracts. In addition, the activity measured with toluene-treated whole cells results in a stoichiometric carboxylation of ribulose 1,5-bisphosphate to phosphoglyceric acid. The assay procedures described are most convenient for determining enzyme levels as a function of growth. Moreover, such an assay should open the way to further studies on the regulation of CO₂ assimilation by direct measurement of the enzymes concerned within the cell.