Characterization of three hormone mutants of Nicotiana plumbaginifolia: evidence for a common ABA deficiency

Summary Various auxin-resistant Nicotiana plumbaginifolia mutants have already been isolated, including 1217 which shows cross-resistance to paclobutrazol. Recently, a cytokinin-resistant mutant, CKR1, has been characterized and has been shown to be affected in abscisic acid (ABA) biosynthesis. We have isolated a new mutant, Esg152, which was selected on the basis of its early germination. In each of these mutants, resistance is due to a recessive nuclear mutation at a single locus. Complementation analysis indicated that mutants I217, CKR1 and Esg152 belong to the same complementation group. They have a similar phenotype, which includes a reduction in seed dormancy and an increased tendency to wilt. These mutants display an increased auxin tolerance and enhanced root formation when leaf or hypocotyl sections are cultivated on auxin. By immunoenzymatic methods, we show that the endogenous levels of ABA are significantly lower than in the wild-type. We have assigned the symbol aba1 to the recessive alleles of the locus affected in the three mutants. The complexity of hormonal interactions is discussed briefly emerging from a consideration of this class of mutants.     

Protein analysis during the ontogeny of normal and male sterile stamenless-2 mutant stamens of tomato (Lycopersicon esculentum Mill.)

The levels and synthesis of proteins during the ontogeny of normal and male sterile stamenless-2 (sl-2/sl-2) mutant stamens of tomato (Lycopersicon esculentum) were examined. The mutant stamens contained low levels of soluble protein which were related to reduction in protein synthesis. The mutant stamens, however, possessed many polypeptides similar to the normal and synthesized a 53-kd polypeptide at stages when there are abnormalities in tapetum development. The mutant stamens also possessed a 23-kd and some low molecular weight polypeptides that were considered as degradative proteins. Normal stamens exhibited the synthesis of many polypeptides not found in the mutant, from microspore mother cell to the preanthesis stages. In addition, at the time of pollen maturation there was a greater synthesis of several polypeptides, particularly those of 42 and 37 kd. Although the causative mechanisms of male sterility in the sl-2/sl-2 mutant are not known, the synthesis, and the lack, of specific polypeptides reported here appears to be associated with pollen degeneration.This work was supported by an operating grant from the Natural Sciences and Engineering Research Council of Canada to V.K.S.     

Estimation of the degree of self-fertilization in Porphyra yezoensis (Bangiales,Rhodophyta)

Crosses between genotypically distinct thalli of the monoecious species Porphyra yezoensis were carried out using immature thallus fragments from green- and red-type color mutants and also wild-type thalli. As the genes governing the mutants are monogenic, recessive to the wild-type, and belong to the same linkage group, the degree of self-fertilization could be estimated based on the pigmentation of the resultant diploid conchocelis. The degree of self-fertilization in the cross between the green-type and the wild-type was 48.5–55.0%, and in the cross between the red-type and the wild-type was 45.1–56.5%. In the cross between the green- and red-type mutants, the degree of self-fertilization was 46.0–54.5% when the green-type was the female parent, and was 44.8–55.6% when the red-type was the female parent.     

Antibacterial and antimycotic effect of a newly discovered secretion from larvae of an endoparasitic insect,Pimpla turionellae L. (Hym.)

Three analogues of the peptidyl pheromone, pheromone of Saccharomyces kluyveri, synthesized based on the amino acid sequence proposed by Sato et al. (Agric Biol Chem 45:1531–1533, 1981) were tested for both shmoo-inducing and agglutinability-inducing actions. Purified natural pheromone of the yeast showed the highest activity among the peptides tested. When methionine in the peptides was oxidized, the activity decreased significatly. Pheromone of S. kluyveri induced sexual agglutinability in a cells of Saccharomyces cerevisiae, and shmoo in a cells of S. cerevisiae and S. kluyveri. a Pheromone of S. kluyveri had no agglutinability-inducing action on cells of S. cerevisiae. a Cells of S. kluyveri inactivated only pheromone of the same species, but a cells of S. cerevisiae inactivated pheromones of both S. cerevisiae and S. kluyveri.     

Molybdenum cofactor from the cytoplasmic membrane of Proteus mirabilis

Molybdenum cofactor was extracted from membranes of Proteus mirabilis by three methods: acidification, heat treatment and heat treatment in the presence of sodium-dodecylsulphate (SDS). Extracts prepared by the latter method contained the highest concentration of molybdenum cofactor. In these extracts molybdenum cofactor was present in a low molecular weight form. It could not penetrate an YM-2 membrane during ultrafiltration suggesting a molecular weight above 1000. During aerobic incubation of cofactor extracts from membranes at least four fluorescent species were formed as observed in a reversed-phase high performance liquid chromatography (HPLC) system. The species in the first peak was inhomogeneous while the species in the others seem to be homogenous. In water, all fluorescent products had an excitation maximum at 380 nm and an emission maximum at 455 nm. Their absorption spectra showed maxima at around 270 nm and 400 nm. Fluorescent compounds present in the first peak could penetrate an YM-2 membrane during ultrafiltration, whereas the compounds in the other peaks hardly did. Using xanthine oxidase from milk as source of molybdenum cofactor apparently identical cofactor species were found. Cytoplasmic nor membrane extracts of the chlorate resistant mutant chl S 556 of P. mirabilis could complement nitrate reductase of Neurospora crassa nit-1 in the presence of 20 mM molybdate. However, fluorescent species with identical properties as found for the wild-type were formed during aerobic incubation of extracts from membranes of this mutant.Non-common Abbreviations HPLC high performance liquid chromatography - I.D. internal diameter - SDS sodium dodecyl sulphate     

Tryptophan degradation in Saccharomyces cerevisiae: Characterization of two aromatic aminotransferases

Tryptophan was found to be degraded in Saccharomyces cerevisiae mainly to tryptophol. Upon chromatography on DEAE-cellulose two aminotransferases were identified: Aromatic aminotransferase I was constitutively synthesized and was active in vitro with tryptophan, phenylalanine or tyrosine as amino donors and pyruvate, phenylpyruvate or 2-oxoglutarate as amino acceptors. The enzyme was six times less active with and had a twenty times lower affinity for tryptophan (K _m=6 mM) than phenylalanine or tyrosine. It was postulated thus that aromatic aminotransferase I is involved in vivo in the last step of tyrosine and phenylalanine biosynthesis. Aromatic aminotransferase II was inducible with tryptophan but also with the other two aromatic amino acids either alone or in combinations. With tryptophan as amino donor the enzyme was most active with phenylpyruvate and not active with 2-oxoglutarate as amino acceptor; its affinity for tryptophan was similar as for the other aromatic amino acids (K _m=0.2–0.4 mM). Aromatic aminotransferase II was postulated to be involved in vivo mainly in the degradation of tryptophan, but may play also a role in the degradation of the other aromatic amino acids.A mutant strain defective in the aromatic aminotransferase II (aat2) was isolated and its influence on tryptophan accumulation and pool was studied. In combination with mutations trp2 ^fbr, aro7 and cdr1-1, mutation aat2 led to a threefold increase of the tryptophan pool as compared to a strain with an intact aromatic aminotransferase II.     

Toxoplasma gondii: Purine synthesis and salvage in mutant host cells and parasites

Toxoplasma gondii, growing exponentially in heavily infected mutant Chinese hamster ovary cells that had a defined defect in purine biosynthesis, did not incorporate [U-¹⁴C]glucose or [¹⁴C]formate into the guanine or adenine of nucleic acids. Intracellular parasites therefore must be incapable of synthesizing purines and depend on their host cells for them. Extracellular parasites, which are capable of limited DNA and RNA synthesis, efficiently incorporated adenosine nucleotides, adenosine, inosine, and hypoxanthine into their nucleic acids; adenosine 5′-monophosphate was the best utilized precursor. Extracellular parasites incubated with ATP labeled with ³H in the purine base and ³²P in the α-phosphate incorporated the purine ring 50-fold more efficiently than they did the α-phosphate. Thus, ATP is largely degraded to adenosine before it can be used by T. gondii for nucleic acid synthesis. Two pathways for the conversion of adenosine to nucleotides appear to exist, one involving adenosine kinase, the other hypoxanthine—guanine phosphoribosyl transferase. In adenosine kinase-less mutant parasites, the efficiency of incorporation of ATP or adenosine was reduced by 75%, which indicates the adenosine kinase pathway was predominant. Extracellular parasites incorporated ATP into both the adenine and the guanine of their nucleic acids, so ATP from the host cell could supply the entire purine requirement of T. gondii. However, ATP generated by oxidative phosphorylation in the host cell is not essential for parasites because they grew normally in a cell mutant that was deficient in aerobic respiration and almost completely dependent upon glycolysis.     

Neurochemical Studies on the Cerebellar Hypoplasia of Gunn Rat (Hereditary Hyperbilirubinemic Rat)

The cerebellar hypoplasia induced by hereditary hyperbilirubinemia in the Gunn rat was analyzed neurochemically and immunohistochemically. The antiserum against myelin basic protein was used to visualize the arborization of the fibers in the cerebellum. Arborization was very scarce in the affected lobes of the homozygous (jj) cerebellum. Na,K-ATPase activity did not show significant differences between the jj and the control (Jj) cerebellum. The concentration of norepinephrine in the jj cerebellum was about 1.5 times that of the control. However, the activation ratio of the Na,K-ATPase by norepinephrine and other catecholamines such as dopamine and isoproterenol was about twice as high as the basal activity, and no significant difference was observed between the jj and the Jj cerebella. The glutamic acid decarboxylase activity of the jj cerebellum did not differ significantly from that of the control.     

2-Deoxyglucose Incorporation in the Cerebellum of Weaver and Nervous Mutant Mice

Abstract: The 2-deoxyglucose autoradiographic method has been used to study activity in cerebellum of the weaver and nervous mutant mice. Patterns of 2-deoxyglucose incorporation into the cerebral hemispheres from weaver and nervous strains did not differ significantly from those of the controls. In the normal cerebellum, 2-deoxyglucose incorporation was maximal in the granular layer, where mossy fibers form synapses with the dendrites of granule cells. In the cerebellum of nervous mice, which lacks Purkinje cells, the incorporation of the 2-deoxyglucose was maximal in the granular layer, but the incorporation into the molecular layer appeared less than in the control. The incorporation into the cerebellum from weaver, which lacks granule cells, was much higher than that of the control, the maximal incorporation being found in the Purkinje cell layer and in cell masses located in the white matter. These data suggest that the heterologous synapses that mossy fibers or climbing fibers form with the cells in the Purkinje cell layer and the cells in the white matter in the weaver cerebellum are functional.     

A mutation affecting the lactate dehydrogenase locus Ldh-1 in the mouse—I. Genetical and electrophoretical characterization

(101/El × C3H/El)F₁ male mice were injected intraperitoneally with the mutagen procarbazine hydrochloride and immediately caged with untreated test-stock females. Crude liver extracts from the offspring were subjected to polyacrylamide gel isoelectric focusing, and the gels were stained for six enzymes. In the experimental group (mutagen treated spermatogonial germ-cell stage), a dominant inherited banding alteration of the lactate dehydrogenase (LDH) pattern was detected. By crossing the heterozygous mutants, homozygotes were obtained that showed much less gel staining intensity. The mutation is codominantly expressed with 100% penetrance. The banding alteration was also observed in muscle, kidney, heart, blood, brain, testis, spleen, and lung. Polyacrylamide gel electrophoresis was performed with all the tissues examined. The mutation causes the intensity of the band corresponding to LDH-A (primary molecular form in muscle) to decrease from that of the wild type, while the intensity of the bands corresponding to LDH-B (primary molecular form in heart) remains constant. It is concluded that the mutation affects the locus coding for LDH of the muscle type. Ldh-1 ^c is proposed as the allele symbol.