The interactions between nucleic acids and polyamines. III. Microscopic protonation constants of spermidine

Changes in the NMR chemical shifts of protons adjacent to the nitrogen atoms of Spermidine which are undergoing protonation have been measured by two-dimensional heteronuclear coupled NMR. Data thus obtained measure the dependence of the state of protonation of individual nitrogens on the pH, and permit calculation of the microprotonation constants of Spermidine and the concentrations of all of the variously protonated Spermidine species present at any pH.     

Thermodynamical model for insertion and aggregate binding of caffeine to the homopolymer poly(riboadenylate) and model choice by data analysis

This paper describes the model used to estimate the parameters of caffeine-poly(riboadenylate) (poly(A)) interactions from corresponding 1H-NMR measurements. The model of insertion and aggregate binding describes the non-cooperative insertion of a molecule C into an interspace between two monomers of a homopolymer in competition with aggregate binding. It contains two binding constants, K1 for insertion and K2 for the interaction of monomeric A units of the polymer with C molecules in bound aggregates, and two cooperativity parameters, Kcc for stacking of C molecules within aggregates and tau which is thought to be due to conformational adaptation of the polymer to those bound aggregates which cover more than one A unit. In contrast to other models, the size of a binding site (within the aggregates) is less than one monomeric unit, with n denoting the maximum number of C molecules per A unit in bound aggregates. The model is developed for general n by means of the method of sequence-generating functions. For n = 2 and n = 3, the correctness of the model treatment was checked by the matrix method. The model is applicable to the binding of aggregates to homopolymers, which are flexible enough to fit their structure to the aggregates.     

Helminthosporium maydis T Toxin Decreased Calcium Transport into Mitochondria of Susceptible Corn

The effects of purified Helminthosporium maydis T (HmT) toxin on active Ca²⁺ transport into isolated mitochondria and microsomal vesicles were compared for a susceptible (T) and a resistant (N) strain of corn (Zea mays). ATP, malate, NADH, or succinate could drive ⁴⁵Ca²⁺ transport into mitochondria of corn roots. Ca²⁺ uptake was dependent on the proton electrochemical gradient generated by the redox substrates or the reversible ATP synthetase, as oligomycin inhibited ATP-driven Ca²⁺ uptake while KCN inhibited transport driven by the redox substrates. Purified native HmT toxin completely inhibited Ca²⁺ transport into T mitochondria at 5 to 10 nanograms per milliliter while transport into N mitochondria was decreased slightly by 100 nanograms per milliliter toxin. Malate-driven Ca²⁺ transport in T mitochondria was frequently more inhibited by 5 nanograms per milliliter toxin than succinate or ATP-driven Ca²⁺ uptake. However, ATP-dependent Ca²⁺ uptake into microsomal vesicles from either N or T corn was not inhibited by 100 nanograms per milliliter toxin. Similarly, toxin had no effect on proton gradient formation ([¹⁴C]methylamine accumulation) in microsomal vesicles. These results show that mitochondrial and not microsomal membrane is a primary site of HmT toxin action. HmT toxin may inhibit formation of or dissipate the electrochemical proton gradient generated by substrate-driven electron transport or the mitochondrial ATPase, after interacting with a component(s) of the mitochondrial membrane in susceptible corn.     

花叶芋的组织培养和植株再生

双色花叶芋(Caladium bieolor)和亮白花叶芋(C.hortulanum)的叶及花序外植体在加有2,4-D 和激动素或只加有2,4-D 的培养基上产生了愈伤组织,它们在转移到无激素或含激动素和低浓度生长素的培养基上以后分化出大量胚状体,并进一步长成小植株。本工作为花叶芋的快速繁殖提供了方法。     

鳄梨(Persea americana Mill.)花的生物学特性观察

鳄梨也叫油梨,属樟科鳄梨属常绿乔木。是一种著名的热带水果,也是木本油料树种之一,果肉(干)出油率为32.43%。鳄梨在厦门地区引种已有30多年历史,生长良好,能正常开花结果,惟落果严重,影响了鳄梨生产的发展。为解决鳄梨落花落果严重问题提供有关资料,我们对引入我国的危地马拉系(Guate-malan race)鳄梨的开花物候期、花的形态与结构、开花习性、着果率和果实生长发育进行了观察。     

Suborganellar localization of proteinase catalyzing the limited hydrolysis of pumpkin globulin

Protein bodies were prepared from the cotyledons of pumpkin (Cucurbita sp.) seeds by employing a nonaqueous isolation method. Both light micrographic examination and the marker enzyme assays have shown that the isolated protein bodies were intact and contamination with other cell organelles or cytoplasmic components was negligible. A proteolytic enzyme catalyzing the limited hydrolysis of carboxymethylated γ′ chain of globulin was found to be present in the protein bodies. The specific activity in the protein body (18 units per milligram protein) was higher than that in the whole cell extract (13 units per milligram protein), indicating that the limited proteolytic enzyme was localized in the protein body.

After lysis of the protein bodies using hypotonic buffer solution, the suborganellar components (matrix, membranes, and crystalloids) were separated by sucrose density gradient centrifugation. The crystalloid was composed of only globulin, a major seed protein. The major proteins of matrix and membrane fractions were shown to have mol wt of approximately 10,000. About 90% of the limited proteolytic activity was found in the matrix region.

     

Ultraviolet action spectrum for anthocyanin formation in broom sorghum first internodes

An action spectrum for anthocyanin formation in dark-grown broom sorghum (Sorghum bicolor Moench, cv Acme Broomcorn and cv Sekishokuzairai Fukuyama Broomcorn) seedlings was determined over the wavelength range from 260 to 735 nanometers. The action peaks were at 290, 650, 385, and 480 nanometers in descending order of height. The action of the 290-nanometer peak was not affected by subsequently given far red light, whereas those of the other three action peaks were nullified completely. The nullification of the 385-nanometer peak action by far red light was reversible. When an irradiation at these action peaks was followed by a phytochrome-saturating fluence of red light irradiation, the action of the 290-nanometer peak remained, whereas that of the 385-nanometer peak as well as those of the 650- and 480-nanometer peaks was masked by the action of the second irradiation. These findings suggested that the 290- and 385-nanometer action peaks involved different photoreceptors, the latter being phytochrome. The blue light-absorbing photoreceptor as reported to be a prerequisite for phytochrome action in milo sorghum was not found to exist in the broom sorghums.

The action spectrum deprived of the involvement of phytochrome was determined in the ultraviolet region by irradiating with far red light following monochromatic ultraviolet light. The spectrum had a single intense peak at 290 nanometers and no action at all at wavelengths longer than 350 nanometers.

     

Localization of phytochrome in oats by electron microscopy

Phytochrome was localized by immunoelectron microscopy in cells of the coleoptile tip of etiolated and irradiated oat (Avena sativa L., cv. Konata) seedlings. By using ultrathin frozen sections and immunopurified, monospecific antibodies, both the sensitivity and resolution of the immunocytochemical assay were increased. The results with etiolated plants agree with and extend previously published data. A brief red light illumination caused the redistribution of phytochrome from a diffuse to a more particulate appearance. Areas that accumulated phytochrome were identified as small vacuoles into which phytochrome was sequestered following illumination. In seedlings illuminated for several hours and in normal light-grown plants, the cellular distribution of phytochrome is qualitatively similar to that of nonirradiated, dark-grown material, except that in green plants the nucleus shows a positive immunocytochemical reaction.