Increases in the number of adventitious roots caused by 2-thiouracil and 5-bromodeoxyuridine in Phaseolus mungo cuttings

A cutting of Phaseolus mungoproduced about 4 adventitious rootsat the basal 1 mm region when the basal part of the cuttingwas dipped in water. Rootlets became visible after a 36 hr lagperiod in untreated cuttings. Treatment with 2-thiouracil or5-bromodeoxyuridine increased the number of roots formed onthe cutting and prolonged the lag period. Effects of 2-thiouraciland 5-bromodeoxyuridine were reversed by simultaneously applieduracil and thymidine. The number of roots decreased and thelength of lag period was shortened. The increases in the numberof roots by 2-thiouracil or 5-bromodeoxyuridine was reducedby gibberellic acid, which did not cause a decrease in the numberof roots to be formed on control cuttings. Roots formed at thebasal region seem to suppress further root formation at theupper part of the hypocotyl. Inhibitors used here probably workby blocking the formation of these bottommost roots. (Received April 30, 1971; )     

EFFECT OF LIGHT ON AUXIN TRANSPORT AND ELONGATION OF AVENA MESOCOTYL

The present work was undertaken to find if there are relations between light and auxin action on elongation of coleoptilar node and mesocotyl with Avena seedlings. Red light inhibited the elongation of mesocotyl and simultaneously decreased the rate of transport of diffusible auxin through the node. Red light also inhibited the transport of exogenously given IAA through the nodal region. The light inhibition of IAA transport was closely related to the increase of IAA immobilization. As the age proceeds, the ability of IAA immobilization increased with the decrease in the rate of mesocotyl elongation, even if the seedling was grown in complete darkness. The nature of radioactive substances found in the IAA-C¹⁴ treated tissue was examined by paper chromatography. The above results strongly suggested that the increase of IAA immobilization might result in the inhibition of mesocotyl elongation.     

Biochemical studies on biogenesis of mitochondria in wounded sweet potato root tissue I. Time course analysis of increase in mitochondrial enzymes

Cytochrome oxidase and succinate dehydrogenase activities increasedduring aging of sliced tissue for sweet potato root after respectivelag phases of about 8 and 10 hr. The increase in the formerwas stepwise. On the other hand, malate dehydrogenase activityincreased slowly without a lag phase. Spectrophotometric determinationof heme contents in mitochondria indicated that the hemes increasedafter a lag phase for at least 8 hr during aging Treatment of tissue slices with cycloheximide at a concentrationof 10^–6 M prior to aging resulted in an extension of thelag phase in the increase of cytochrome oxidaseactivity andin complete inhibition of the increase of malate dehydrogenaseactivity. The antibiotic, at a concentration of 10^–5 M,completely suppressed the increases. Chloramphenicol (6 ? 10^–3M) also blocked the increases, except for that in malate dehydrogenaseactivity at an early stage of aging (Received December 22, 1970; )     

The angiotensin Ⅱ type 1 receptor and receptor-associated proteins

INTRODUCTIONThe renin-angiotensin system (RAS) is consid-ered to be the major regulator of blood pressure)electrolyte balance and renal, neuronal as well as en-docrine functions related to cardiovascular control.The RAS is the key factor in most cases essential hy-pertension, as indicated by successes in treatment ofhypertensive patients with various angiotensin I con-verting enzyme (ACE) inhibitors and receptor block-ers. Renin was a central subject of intense investigation because of…     

BLUE AND NEAR ULTRAVIOLET REVERSIBLE PHOTOREACTION IN CONIDIAL DEVELOPMENT OF THE FUNGUS, ALTERNARIA TOMATO

In the sporulation of Alternaria tomato, conidiophores are induced by near ultraviolet irradiation but not by darkness, and the conidia develop only when the irradiation is followed by a period of darkness. Conidial development is suppressed by a short exposure to blue light at a definite time during the dark period following the inductive irradiation. The suppression of conidial development by blue light can be reversed by exposure to near ultraviolet light immediately following the blue light irradiation. This reversion is reversibly suppressed by a further exposure to blue light immediately following near ultraviolet irradiation. Thus, at least two stages are involved in the sporulation of A. tomato, the first being a photochemical stage necessary for the induction of conidiophores, and the second essential for the conidial development which proceeds only in the absence of exposure to the blue region of the spectrum. Moreover, conidial development can be controlled by alternating doses of blue and near ultraviolet light, and the subsequent response depends upon the last kind of radiation given. It is concluded that a new pigment system, which we have named “Mycochrome”, is involved in the blue and near ultraviolet reversible photoreaction, and that this compound plays an important role in the photocontrol of conidial development in this fungus.     

CHANGES IN THE LEVELS OF NICOTINAMIDE NUCLEOTIDES AND IN ACTIVITIES OF NADP-DEPENDENT DEHYDROGENASES AFTER A BRIEF ILLUMINATION OF RED LIGHT

A brief red irradiation caused an immediate rise of NADPH level and an immediate drop of NADP level in coleoptilar node of etiolated Avena seedling. With the duration of the dark incubation after the red irradiation, the level of NADPH gradually fell, and the NADP level rose higher than in non-irradiated materials. Such NADP-dependent dehydrogenases as glucose-6-phosphate, isocitrate and 6-phosphogluconate dehydrogenases were activated immediately after the red irradiation.     

The Effects of Ethanol on the Germination of Seeds of Japonica and Indica Rice (Oryza sativa L.) under Anaerobic and Aerobic Conditions

An examination was made of the effects of ethanol at 0.2–6.0%(v/v) on the germination, under aerobic conditions, of intactand dehusked seeds of indica rice (cv. Assam IV), which hadbeen harvested 14, 21 and 28 d after anthesis, and of the japonicarice (cv. Sasanishiki), which had been harvested 30 and 60 dafter anthesis. The inhibition of germination caused by dehuskingjaponica rice was overcome by 0.5–5% ethanol, with maximumgermination (frequently 100%) achieved at 3–5% (30 d afteranthesis) or 1–4.5% (60 d after anthesis) ethanol. Furtherincreases in the ethanol concentration reduced germination.The germination of dehusked indica rice was slightly inhibitedat 0.5 and 1% ethanol, whilst the promotion of germination by2% ethanol increased as the seeds matured. At all harvests germinationwas greatest at 3% ethanol, and at 5–6% ethanol germinationfell to 0%. Inhibition, no effect, or minimal stimulation ofthe germination of intact seeds of both japonica and indicarice by ethanol was observed at the concentrations examined.The absence of oxygen stimulated germination of dehusked japonicarice, but this germination was inhibited by ethanol. In contrastethanol had little or no effect on the failure of dehusked indicaseeds to germinate in anaerobic conditions. Thus ethanol treatmentmay help break the strong dormancy of dehusked seeds of indicaand japonica rice. The possible role of ethanol in stimulatinggermination in rice is discussed. Rice; Oryza sativa L.; seed germination; dehusking treatment; ethanol; indica; japonica; oxygen; dormancy; germination inhibition; seed formation     

PHYTOCHROME ACTION IN ORYZA SATIVA L. III. THE SEPARATION OF PHOTOPERCEPTIVE SITE AND GROWING ZONE IN COLEOPTILES, AND AUXIN TRANSPORT AS EFFECTOR SYSTEM

• 1 In 4-day-old etiolated rice seedlings, 3 mm of the coleoptile tip did mainly perceive the photostimulus to cause the phytochrome-dependent inhibition of coleoptile elongation. At this age, cell elongation occurred most in the middle portion of coleoptiles in the dark, and was reversibly controlled by a brief exposure of the tip to red and far-red light. Thus, the photoperceptive site was evidently separated from the growing zone in intact rice coleoptiles.
• 2 The red-light-induced inhibition of coleoptile elongation was nullified by the removal of tip followed by the exogenous application of IAA. The sensitivity of thus treated coleoptiles to IAA was gradually lost during intervening darkness between the irradiation and the decapitation, and a 50% loss was obtained at ca. 6th hour at 26°C.
• 3 Polar auxin transport from coleoptile tips was remarkably prevented at the period between, at least, 2nd and 4th hour after red irradiation, and it recovered to the level of dark control by the 6th hour. Far-red light given immediately after red irradiation reversed the yield of diffusible auxin up to that of far-red control.

     

PHOTOCONTROL OF DEVELOPMENT OF EXCISED ERAGROSTIS EMBRYOS

• 1 Both the germination of intact seeds and the development of excised embryos depend on their after-ripening. Shortly after the harvest, the intact seeds of Eragrostis ferruginea are in dormancy and germinate neither in the light nor in the dark. The ability of seeds to germinate under both conditions, however, gradually increases with the progress of after-ripening. The development of excised embryos, on the other hand, is readily induced in the light and dark even shortly after the harvest. As the after-ripening proceeds, however, the ability of excised embryos to develop gradually decreases and is finally lost 18 months after the harvest. The after-ripened embryos whose ability to develop is completely reduced become light sensitive again when they are supplied with the yeast extract of a low concentration, and develop readily even in darkness at a high concentration of the extract.
• 2 The photorequirement for development of excised embryos is scarcely affected by oxygen concentrations, and the embryo growth can take place equally in both light and darkness in the atmosphere containing 100 to 10 percent of air, while it can not be induced in pure nitrogen.
• 3 The promotion of embryo development by light is observed at the time when the ability of embryos to develop declines. The effectiveness of the irradiation is very similar to that in intact seed germination.