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1. |
Codon Usage in Higher Plants, Green Algae, and Cyanobacteria1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 1-11
Wilbur H. Campbell,
G. Gowri,
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摘要:
Codon usage is the selective and nonrandom use of synonymous codons by an organism to encode the amino acids in the genes for its proteins. During the last few years, a large number of plant genes have been cloned and sequenced, which now permits a meaningful comparison of codon usage in higher plants, algae, and cyanobacteria. For the nuclear and organellar genes of these organisms, a small set of preferred codons are used for encoding proteins. Codon usage is different for each genome type with the variation mainly occurring in choices between codons ending in cytidine (C) or guanosine (G)versusthose ending in adenosine (A) or uridine (U). For organellar genomes, chloroplastic and mitochrondrial proteins are encoded mainly with codons ending in A or U. In most cyanobacteria and the nuclei of green algae, proteins are encoded preferentially with codons ending in C or G. Although only a few nuclear genes of higher plants have been sequenced, a clear distinction between Magnoliopsida (dicot) and Liliopsida (monocot) codon usage is evident. Dicot genes use a set of 44 preferred codons with a slight preference for codons ending in A or U. Monocot codon usage is more restricted with an average of 38 codons preferred, which are predominantly those ending in C or G. But two classes of genes can be recognized in monocots. One set of monocot genes uses codons similar to those in dicots, while the other genes are highly biased toward codons ending in C or G with a pattern similar to nuclear genes of green algae. Codon usage is discussed in relation to evolution of plants and prospects for intergenic transfer of particular genes.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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2. |
Comparison of Lodging Safety Factor of Untreated and Succinic Acid 2,2-Dimethylhydrazide-Treated Shoots of Mulberry Tree1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 12-16
Masaki Tateno,
Kaesun Bae,
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摘要:
This study examined the lodging resistance of mulberry tree (Morus bombycisKoidz. cv Kenmochi) shoots treated or not treated with succinic acid 2,2-dimethylhydrazide (SADH). The lodging safety factor, an indicator of lodging resistance, was defined as the ratio of critical lodging load to the leaf fresh weight observed, provided that the distribution of the critical lodging load along the stem was similar to that of the leaf fresh weight observed. The critical lodging load was experimentally estimated by loading weights onto the stems. In the untreated trees, the lodging safety factor was maintained at about 3.2. In the SADH-treated trees, the stem elongation was inhibited to about 80% of that in the untreated trees, and the percentage of shoot dry matter partitioned into the leaves was always larger than that of the untreated trees. This dwarfing of the stem caused by SADH increased the critical lodging load supported by the unit stem dry weight, while this large investment of materials in leaves increased the leaf fresh weight supported by the unit stem dry weight. Since the increments canceled each other, the lodging safety factor of the SADH-treated shoots was similar to that of the untreated ones. These results suggest that the shoot formation of the mulberry tree is controlled to maintain the lodging safety factor at a constant level.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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3. |
Accumulation of Apoplastic Iron in Plant Roots1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 17-22
Nancy Longnecker,
Ross M. Welch,
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摘要:
We hypothesized that the resistance of Hawkeye (HA) soybean (Glycine maxL.) to iron-deficiency induced chlorosis (IDC) is correlated to an ability to accumulate a large pool of extracellular-root iron which can be mobilized to shoots as the plants become iron deficient. Iron in the root apoplast was assayed after efflux from the roots of intact plants in nutrient solution treated with sodium dithionite added under anaerobic conditions. Young seedlings of HA soybean accumulated a significantly larger amount of extracellular iron in their roots than did either IDC-susceptible PI-54619 (PI) soybean or IDC-resistant IS-8001 (IS) sunflower (Helianthus annusL.). Concurrently, HA soybean had much higher concentrations of iron in their shoots than either PI soybean or IS sunflower. The concentration of iron in the root apoplast and in shoots of HA soybean decreased sharply within days after the first measurements of extracellular root iron were made, in both +Fe and−Fe treatments. The accumulation of short-term iron reserves in the root apoplast and translocation of iron in large quantities to the shoot may be important characteristics of IDC resistance in soybean
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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4. |
Patch Clamp Studies on Root Cell Vacuoles of a Salt-Tolerant and a Salt-SensitivePlantagoSpecies1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 23-28
Frans J. M. Maathuis,
Hidde B. A. Prins,
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摘要:
Plantago mediaL. andPlantago maritimaL. differ in their strategy toward salt stress, a major difference being the uptake and distribution of ions. Patch clamp techniques were applied to root cell vacuoles to study the tonoplast channel characteristics. In both species the major channel found was a 60 to 70 picosiemens channel with a low ion selectivity. The conductance of this channel for Na+was the same as for K+, PK+/PNa+= 1, whereas the cation/anion selectivity (PK+/Pc1−) was about 5. Gating characteristics were voltage and calcium dependent. An additional smaller channel of 25 picosiemens was present inP. maritima.In the whole vacuole configuration, the summation of the single channel currents resulted in slowly activated inward currents (t½= 1.2 second). Inwardly directed, ATP-dependent currents could be measured against aΔpH gradient of 1.5 units over the tonoplast. This observation strongly indicated the physiological intactness of the used vacuoles. The open probability of the tonoplast channels dramatically decreased when plants were grown on NaCl, although single channel conductance and selectivity were not alte
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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5. |
Leaf Phosphate Status, Photosynthesis, and Carbon Partitioning in Sugar Beet |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 29-36
I. Madhusudana Rao,
Arthur L. Fredeen,
Norman Terry,
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摘要:
The effect of low phosphate supply (low P) was determined on the diurnal changes in the rate of carbon export, and on the contents of starch, sucrose, glucose, and fructose 2,6-bisphosphate (F2,6BP) in leaves. Low-P effects on the activities of a number of enzymes involved in starch and sucrose metabolism were also measured. Sugar beets (Beta vulgarisL. cv. F58-554H1) were cultured hydroponically in growth chambers and the low-P treatment induced nutritionally. Low-P treatment decreased carbon export from the leaf much more than it decreased photosynthesis. At growth chamber photon flux density, low P decreased carbon export by 34% in light; in darkness, export rates fell but more so in the control so that the average rate in darkness was higher in low-P leaves. Low P increased starch, sucrose, and glucose contents per leaf area, and decreased F2, 6BP. The total extractable activities of enzymes involved in starch and sucrose synthesis were increased markedly by low P,e.g.adenosine 5-diphosphoglucose pyrophosphorylase, cytoplasmic fructose-1,6-bisphosphatase, uridine 5-diphosphoglucose pyrophosphorylase, and sucrose-phosphate synthase. The activities of some enzymes involved in starch and sucrose breakdown were also increased by low P. We propose that plants adapt to low-P environments by increasing the total activities of several phosphatases and by increasing the concentrations of phosphate-free carbon compounds at the expense of sugar phosphates, thereby conserving Pi. The partitioning of carbon among the various carbon pools in low-P adapted leaves appears to be determined in part by the relative capacities of the enzymes for starch and sucrose metabolism.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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6. |
Spinach Chloroplastic Carbonic Anhydrase |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 37-40
James N. Burnell,
Mark J. Gibbs,
John G. Mason,
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摘要:
We have determined the nucleotide sequence of a cDNA encoding spinach (Spinacia oleracea) chloroplastic carbonic anhydrase (CA). The open reading frame encodes a protein consisting of a transit peptide and a mature CA protein with a predicted mass of 24, 116 daltons. This represents the first report of a nucleotide sequence of a plant CA.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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7. |
Properties and Activity Changes of Chlorogenic Acid:Glucaric Acid Caffeoyltransferase From Tomato (Lycopersicon esculentum)1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 41-47
Dieter Strack,
Wiltrud Gross,
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摘要:
A novel acyltransferase from cotyledons of tomato (Lycopersicon esculentumMill.), which catalyzes the transfer of caffeic acid from chlorogenic acid (5-O-caffeoylquinic acid) to glucaric and galactaric acids, was purified with a 2400-fold enrichment and a 4% recovery. The enzyme showed specific activities (theoreticalVmaxper milligram of protein) of 625 nanokatals (caffeoylglucaric acid formation) and 310 nanokatals (caffeoylgalactaric acid formation). On sodium dodecyl sulfate-polyacrylamide gel electrophoresis it gave an apparentMrof 40,000, identical to the value obtained by gel filtration column chromatography. Highest activity was found at pH 5.7, which was constant over a range of 20 to 120 millimolar K-phosphate. The isoelectric point of the enzyme was at pH 5.75. The reaction temperature optimum was at 38°C and the apparent energy of activation was calculated to be 57 kilojoules per mole. The apparentKmvalues were 0.4 millimolar for glucaric acid, 1.7 millimolar for galactaric acid, and with both acceptors as second substrates 20 millimolar for chlorogenic acid. The relative ratio of theVmax/Kmvalues for glucaric acid and galactaric acid was found to be 100:12. Substrate-competition experiments support the conclusion that one single enzyme is responsible for both the glucaric and galactaric acid ester formation with marked preference for glucaric acid. It is proposed that the enzyme be called chlorogenic acid:glucaric acidO-caffeoyltransferase (EC 2.3.1.-). The three caffeic acid-dependent enzyme activities involved in the formation of the glucaric and galactaric acid esters, the chlorogenic acid:glucaric acid caffeoyltransferase as the key activity as well as the caffeic acid:CoA ligase and the caffeoyl-CoA:quinic acid caffeoyltransferase as the preceding activities, were determined. The time course of changes in these activities were followed during development of the seedling in the cotyledons and growth of the young plant in the first and second leaf. The results from tomato seedlings suggest a sequential appearance of these enzymes
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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8. |
Characterization of Abscisic Acid-Induced Ethylene Production in Citrus Leaf and Tomato Fruit Tissues1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 48-53
Joseph Riov,
Eliahu Dagan,
Raphael Goren,
Shang Fa Yang,
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摘要:
Abscisic acid (ABA) significantly stimulated ethylene production in citrus (Citrus sinensis [L.] Osbeck, cv Shamouti orange) leaf discs. The extent of stimulation was dependent upon the concentration of ABA (0.1-1 milimolar) and the duration of treatment (15-300 minutes). Aging the discs before applying ABA increased ABA-induced ethylene production due to enhancement of both ethylene-forming enzyme activity and the responsiveness of ABA. Discs excised from mature leaves were much more responsive to ABA than discs excised from young or senescing leaves. ABA stimulated ethylene production shortly after application, suggesting that ABA does not enhance ethylene production via the acceleration of senescence. The stimulating effect of ABA on ethylene production resulted mainly from the enhancement of 1-aminocylopropane-1-carboxylic acid synthesis. Stimulation of ethylene production by ABA in intact citrus leaves and tomato (Lycopersicon esculentumMill., cv Castlemart) fruit was small but could be increased by various forms of wounding.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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9. |
Ethylene-Enhanced Catabolism of [14C]Indole-3-Acetic Acid to Indole-3-Carboxylic Acid in Citrus Leaf Tissues1 |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 54-60
Oded Sagee,
Joseph Riov,
Raphael Goren,
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摘要:
Exogenous [14C]indole-3-acetic acid (IAA) is conjugated in citrus (Citrus sinensis) leaf tissues to one major substance which has been identified as indole-3-acetylaspartic acid (IAAsp). Ethylene pretreatment enhanced the catabolism of [14C]IAA to indole-3-carboxylic acid (ICA), which accumulated as glucose esters (ICGIu). Increased formation of ICGIu by ethylene was accompanied by a concomitant decrease in IAAsp formation. IAAsp and ICGIu were identified by combined gas chromatography-mass spectrometry. Formation of ICGIu was dependent on the concentration of ethylene and the duration of the ethylene pretreatment. It is suggested that the catabolism of IAA to ICA may be one of the mechanisms by which ethylene reduces endogenous IAA levels.
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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10. |
Direct Observation of Cell Wall Structure in Living Plant Tissues by Solid-State13C NMR Spectroscopy |
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Plant Physiology,
Volume 92,
Issue 1,
1990,
Page 61-65
Michael C. Jarvis,
David C. Apperley,
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摘要:
Solid-state13C nuclear magnetic resonance (NMR) spectra of the following intact plant tissues were recorded by the crosspolarization magic-angle spinning technique: celery (Apium graveolensL.) collenchyma; carob bean (Ceratonia siliquaL.), fenugreek (Trigonella foenum-graecumL.), and nasturtium (Tropaeolum majusL.) endosperm; and lupin (Lupinus polyphyllusLindl.) seed cotyledons. All these tissues had thickened cell walls which allowed them to withstand the centrifugal forces of magic angle spinning and which, except in the case of lupin seeds, dominated the NMR spectra. The celery collenchyma cell walls gave spectra typical of dicot primary cell walls. The carob bean and fenugreek seed spectra were dominated by resonances from galactomannans, which showed little sign of crystalline order. Resonances fromβ(1,4′)-dgalactan were visible in the lupin seed spectrum, but there was much interference from protein. The nasturtium seed spectrum was largely derived from a xyloglucan, in which the conformation of the glucan core chain appeared to be intermediate between the solution form and solid forms of cellulo
ISSN:0032-0889
出版商:American Society of Plant Biologists
年代:1990
数据来源: ASPB
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