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1.
Reid, J. B. and Ross, J. J. 1988. Internode length in Pisum. Further studies on the 'micro' gene, lm . - Physiol. Plant. 72: 547–554.
In the garden pea, Pisum sativum L., gene lm confers the micro phenotype. The shoots of lm plants may be described as scaled-down versions of comparable Lm plants, with reduced internode length, leaflet size and rate of leaf expansion. However, the first phenotypic effect of gene lm is on root morphology. The gene results in curling and reduced elongation of the roots and, eventually, degeneration of the root cortex. These changes commence prior to any major visible effects in the shoot. The primary action of the lm gene does not appear to be confined to the root system, however, since epicotyl grafts between Lm and lm plants showed no graft-transmissible effects. The effects of gene lm are also apparent in dark-grown plants. Microdwarf plants ( lm le ) respond well to gibberellin A1 (GA1 ), but do not elongate to the same extent as dwarf ( Lm le ) plants. The two genotypes contain the same complement of GA-like substances. It is argued that gene lm is unlikely to be directly involved with GA-metabolism or the reception of the GA signal, but rather reduces the GA response by influencing some aspect of normal cell development, which results in the wide range of pleiotropic effects observed. Consequently, it may be misleading to continue to classify this gene simply as an internode length mutant. 相似文献
In the garden pea, Pisum sativum L., gene lm confers the micro phenotype. The shoots of lm plants may be described as scaled-down versions of comparable Lm plants, with reduced internode length, leaflet size and rate of leaf expansion. However, the first phenotypic effect of gene lm is on root morphology. The gene results in curling and reduced elongation of the roots and, eventually, degeneration of the root cortex. These changes commence prior to any major visible effects in the shoot. The primary action of the lm gene does not appear to be confined to the root system, however, since epicotyl grafts between Lm and lm plants showed no graft-transmissible effects. The effects of gene lm are also apparent in dark-grown plants. Microdwarf plants ( lm le ) respond well to gibberellin A
2.
A new allele at the Lh locus has been identified in Pisum sativum L. and named lhi . This allele results in reduced GA levels in young shoots, and a dwarf phenotype. Gas chromatography-selected ion monitoring (GC-SIM) with dideuterated internal standards has been used to demonstrate a quantitative relationship between the level of endogenous GA1 and internode length using the three alleles ( Lh, lh and lhi ) at the Lh locus. These results are consistent with previous findings in peas (for alleles at the Le locus) and other species possessing a predominant early 13-hydroxylation pathway for GA biosynthesis and support the role of GA1 as the major native GA in peas with biological activity in its own right. However, in contrast to alleles at the Le locus, GA20 levels are also reduced in lh and lhi plants. The lhi allele also has possible pleiotropic effects on seed abortion, leading to a reduction in seed yield compared to plants homozygous for the previously characterised Lh or lh alleles. 相似文献
3.
4.
James B. Reid 《Physiologia plantarum》1988,74(1):83-88
There is a strong relationship across the full range of gibberellin deficient, internode length genotypes ( le, lh, is, na ) between internode length in the dark and in red or white light. Further, the new, more severe allele at the le locus. Ie d , is shown to influence growth in the dark as well as in the light. These results suggest that darkeness does not specifically overcome any of the steps blocked by the gibberellin (GA) synthesis genes contrasting with the conclusions drawn by other workers. Supporting this conclusion in relation to the Ie gene are results which show that, at least at certain dosage rates, dark-grown Ie na plants respond better to GA1 than to GA20 similar to the response previously reported in light grown plants.
The greater response by plants of the nana line NGB1766 ( na ) to GA1 in the dark than in the light suggests that light may influence internode length by altering GA-sensitivity. These results are discussed in relation to previous views on the control of stem elongation by light. 相似文献
The greater response by plants of the nana line NGB1766 ( na ) to GA
5.
Two further internode length genes are identified in Pisum sativum L. and named lka (identified from line NGB5865) and lkb (from NGB5862). These genes result in a similar phenotype, which includes reduced stem elongation, peduncle length and basal branching, and 'banding' of the stem. These effects are similar to, but less severe than, those of gene lk . Genes lka and lkb influence gibberellin (GA) sensitivity, since mutants NGB5865 and NGB5862 possess similar levels of endogenous GA-like substances to the wild-type parental cultivar Torsdag and respond less to applied GA1 than do wild-type plants or GA-synthesis mutants of a similar stature. The action of genes lka and lkb is localised in the young apical tissue but is not thought to involve GA-perception, since plants possessing genes lka and lkb are not true phenocopies of GA-deficient plants. The genetic interaction of genes lka and lkb is examined and the action of gene lkb on a le gene background determined. 相似文献
6.
Evidence was obtained by gas chromatography-mass spectrometry and gas chromatography-selected ion monitoring for the presence of gibberellin A20 ), GA1 , GA29 , GA8 and 2-epiGA29 in vegetative shoots of tall sweet pea, Lathyrus odoratus L. Both tall (genotype L –) and dwarf (genotype II ) sweet peas elongated markedly in response to exogenous GA1 attaining similar internode lengths at the highest dose levels. Likewise internode length in both genotypes was reduced by application of the GA biosynthesis inhibitor, PP333. The ratio of leaflet length to width was reduced by application of PP333 to tall plants and this effect was reversed by GA1 . When applied to plants previously treated with PP333, GA20 promoted internode elongation of L – plants as effectively as GA1 , but GA29 was not as effective as GA1 when applied to II plants. In contrast, GA20 and GA1 were equally effective when applied to the semidwarf lb mutant but GA-treated lblb plants did not attain the same internode length as comparable GA-treated Lb – plants. The difference in stature between the tall and dwarf types persisted in dark-grown plants. It is concluded that GA1 may be important for internode elongation and leaf growth in sweet pea. Mutant l may influence GA1 synthesis by reducing 3β-hydroxylation of GA20 whereas mutant lb appears to affect GA sensitivity. 相似文献
7.
Alasdair K. MacKenzieHose Leanne J. Sherriff John J. Ross James B. Reid 《Physiologia plantarum》1998,103(4):485-490
We describe a new mutation, lrs , which reduces internode length in Pisum sativum L. The mutation appears to act by reducing both GA synthesis and the response to GA1 . The levels of the 13‐hydroxylated GAs, GA53 , GA44 , GA19 , GA20 , GA1 , and GA8 in the lrs mutant were greatly reduced compared with the wild‐type. The extent of the reduction in GA1 content in the apical tissues would, at least in part, account for the dwarf phenotype of the mutant. The reduced GA responsiveness of the new mutant was indicated by the inability of applied GA1 to remove the difference in elongation between lrs and LRS plants. The lrs mutant appears to be unique amongst internode length genotypes, possessing characteristics of both GA synthesis and GA response mutants. 相似文献
8.
The levels of GA1 , 3-epiGA1 and GA8 in genotypes Le, le and led of Pisum sativum L. were determined by gas chromatography-selected ion monitoring (GC-SIM) after feeds of [3 H, 13 C]-GA20 to each genotype. The levels of endogenous and [13 C]-labelled metabolites were determined by reverse isotope dilution with unlabelled GA1 , 3-epiGA1 and GA8 . The results demonstrate a quantitative relationship between the level of GA1 and the extent of elongation both on a per plant and a per g fresh weight basis. These results are consistent with previous findings in peas and other species possessing a predominant early 13-hydroxylation pathway for GA biosynthesis.
The levels of 3-epiGA1 also decreased in the genotypic sequence Le, le, led although not as rapidly as for the level of GA1 . This may suggest that the alleles at the le locus also influence the formation of 3-epiGA1 . 相似文献
The levels of 3-epiGA
9.
Jolly, C. J., Reid, J. B. and Ross, J. J. 1987. Internode length in Pisum. Action of gene lw.
Mutant K29 of Pisum sativum L. is shown to possess a recessive gene at a new locus, lw , which results in reduced internode length, delayed flowering and increased symptoms of water congestion compared with the parental cv. Torsdag. The interaction of gene lw with the internode length genes na, le, la and cry5 is examined. Extracts from the shoots of Iw plants are shown to contain similar levels of gibberellin (GA)-like substances to comparable Lw plants, but Iw plants do not elongate to the same extent as Lw plants when treated with GA19 GA19 , or GA20 . The effect of gene Iw is not graft-transmissible. Unlike essentially isogenic dwarf lines possessing the GA-synthesis genes le, Ih or Is, lw plants show a relative increase in elongation similar to Torsdag in response to photoperiod extensions from sources rich in far-red light. These results suggest that gene lw probably does not reduce elongation by influencing GA-synthesis and that the response to photoperiod extensions with far-red light may depend on the level of GA. 相似文献
Mutant K29 of Pisum sativum L. is shown to possess a recessive gene at a new locus, lw , which results in reduced internode length, delayed flowering and increased symptoms of water congestion compared with the parental cv. Torsdag. The interaction of gene lw with the internode length genes na, le, la and cry
10.
Timothy J. Ingram James B. Reid Ian C. Murfet Paul Gaskin Christine L. Willis Jake MacMillan 《Planta》1984,160(5):455-463
The influence of the Na and Le genes in peas on gibberellin (GA) levels and metabolism were examined by gas chromatographic-mass spectrometric analysis of extracts from a range of stem-length genotypes fed with [13C, 3H]GA20. The substrate was metabolised to [13C, 3H]GA1, [13C, 3H]GA8 and [13C, 3H]GA29 in the immature, expanding apical tissue of all genotypes carrying Le. In contrast, [13C, 3H]GA29 and, in one line, [13C, 3H]GA29-catabolite, were the only products detected in plants homozygous for the le gene. These results confirm that the Le gene in peas controls the 3-hydroxylation of GA20 to GA1. Qualitatively the same results were obtained irrespective of the genotype at the Na locus. In all Na lines the [13C, 3H]GA20 metabolites were considerably diluted by endogenous [12C]GAs, implying that the metabolism of [13C, 3H]GA20 mirrored that of endogenous [12C]GA20. In contrast, the [13C, 3H]GA20 metabolites in na lines showed no dilution with [12C]GAs, confirming that the na mutation prevents the production of C19-GAs. Estimates of the levels of endogenous GAs in the apical tissues of Na lines, made from the 12C:13C isotope ratios and the radioactivity recovered in respective metabolites, varied between 7 and 40 ng of each GA per plant in the tissue expanded during the 5 d between treatment with [13C, 3H]GA20 and extraction. No [12C]GA1 and only traces of [12C]GA8 (in one line) were detected in the two Na le lines examined. These results are discussed in relation to recent observations on dwarfism in rice and maize.Abbreviations GAn
gibberellin An
- GC-MS
gas chromatography-mass spectrometry
- HPLC
high-pressure liquid chromatography 相似文献
11.
Ian C. Murfet 《Physiologia plantarum》1990,79(3):497-505
Dwarf pea (Pisum sativum L.) plants with genotypes cryc and crys responded differently when an 8 h photoperiod (8 h daylight, 16 h dark) was extended to 24 h (8 h daylight, 16 h incandescent light). Genotype cryc showed up to a 4-fold increase in internode length, sustained by increases in both cell length (particularly of epidermal cells) and cell number (particularly of cortical cells) while crys plants showed up to a 2-fold increase in internode length sustained mostly by an increase in cell number. Under an 8 h (daylight) photoperiod the two genotypes did not differ in their sensitivity to applied gibberellin A1 (GA1) and they showed a similar pattern of response. GA1 significantly increased internode length, cell length and cell number in both genotypes. Incandescent light did not increase the size of the response to GA1 except for crys plants at high dose rates of GA1 (29–58 nmol). At saturating doses of GA1 the two genotypes attained a similar peak internode length; incandescent light increased the peak by about 40%. GA1 increased the rate of leaf appearance by up to 33% while incandescent light reduced the rate by 4–7%. The elongation response of the more mature internodes of cryc plants to GA1 or incandescent light was due primarily to an increase in cell length whereas increased cell number made a significant contribution in the case of internodes which were relatively immature at the time the stimulus was applied. The progressive increase in internode length of both genotypes during ontogeny was due primarily to an increase in cell number. In conclusion, alleles cryc and crys (background le La) do not confer a difference in sensitivity to GA1 and the increase in internode length in response to incandescent light is probably not the result of a real or perceived increase in GA1 level. Allele crys may partially block a phytochrome mediated response to light and the key difference between genotypes crys and cryc may lie in the greater elongation (extensibility?) of cryc epidermal cells in incandescent light. 相似文献
12.
Ross, J. J. and Reid, J. B. 1989. Internode length in Pisum. Biochemical expression of the Le gene in darkness.
The Le gene appears to be biochemically expressed in dark-grown pea ( Pisum sativum L.) plants since the previously reported difference in metabolism of [3 H]-GA30 between light-grown Le and Le plants was also observed in darkness. Furthermore, both light- and dark-grown Le plants contained more endogenous GA1 , -like substance than did comparable Le plants. Darkness did not appear to significantly increase the accumulation of GA1 , in either Le or Le plants, although confirmation of GA1 levels by gas chromatography-selected ion monitoring is still required. The results support previous findings that the overall metabolism of [3 H]-GA20 , is accelerated by darkness. The evidence presented here supports previous suggestions that darkness acts on internode length by increasing some aspect of GA sensitivity. 相似文献
The Le gene appears to be biochemically expressed in dark-grown pea ( Pisum sativum L.) plants since the previously reported difference in metabolism of [
13.
Internode length in Pisum. The involvement of ethylene with the gibberellin-insensitive erectoides phenotype 总被引:1,自引:0,他引:1
The gene lk in peas ( Pisum sativum L.) confers the erectoides phenotype. This phenotype possesses much reduced internode and petiole lengths and is practically insensitive to applied GA1 , compared with Lk plants. Application of the ethylene synthesis inhibitor, aminoethoxyvinylglycine (AVG), resulted in increased internode elongation and increased GA-sensitivity in lk plants, but not in the Lk line, L53. The ethylene-releasing compound, ethephon, had the reverse effect when applied to the Lk line, L58, reducing internode length and GA-sensitivity. Ethylene production was higher in lk segregates than in Lk segregates under the conditions used, and the shoot anatomy of lk segregates was consistent with these higher ethylene levels.
These results suggest that the phenotypic effects of gene lk may be due, at least in part, to increased ethylene production in erectoides plants. However, AVG application to lk plants did not produce true phenocopies of comparable lk plants and ethephon application to Lk plants did not produce the erectoides phenotype. Further work is therefore required to determine whether the effect of the gene lk on ethylene production is the primary action of this gene or merely a secondary consequence. 相似文献
These results suggest that the phenotypic effects of gene lk may be due, at least in part, to increased ethylene production in erectoides plants. However, AVG application to lk plants did not produce true phenocopies of comparable lk plants and ethephon application to Lk plants did not produce the erectoides phenotype. Further work is therefore required to determine whether the effect of the gene lk on ethylene production is the primary action of this gene or merely a secondary consequence. 相似文献
14.
In the garden pea ( Pisum sativum L.), shoots of the extremely short plants with the mutant na (phenotype nana) are found by bioassay to contain undetectable levels of gibberellin-like substances. This is confirmed by the use of near isogenic lines differing at the Na locus. Thus, mutant na appears to block a step early in the pathway of gibberellin synthesis. It is suggested that the polar gibberellin-like substance found in the apical portion of shoots of tall ( Le ) but not dwarf ( le ) peas could be GA1 . Extracts of shoots of na Le peas treated with GA20 (the major active gibberellin in dwarf peas) possess a large amount of GA1 -like activity whereas extracts of shoots of na le peas treated with GA20 possess a much reduced amount. Thus, gene Le may allow the conversion of a less active gibberellin (GA20 ) into one more active in stimulating elongation in the pea (the GA1 -like compound). In contrast to their influence in the shoot, the na and Le genes do not appear to be operative in controlling the gibberellin content of developing seed, indicating that organ specific gibberellin biosynthesis and metabolism occur in peas. 相似文献
15.
The highly active, polar gibberellin-like substance found in the apical region of shoots of tall (genotype Le ) peas ( Pisum sativum L.) is shown by combined gas chromatography-mass spectrometry (GC/MS) to be GA1 . This substance is either absent or present at only low levels in dwarf ( le ) plants. Multiple ion monitoring (MIM) tentatively suggests that GA8 may also be present in shoot tissue of tall peas. Gibberellin A1 is the first 3 β-hydroxylated gibberellin positively identified in peas, and its presence in shoot tissue demonstrates the organ specificity of gibberellin production since GA1 has not been detected in developing seeds. Application of GA1 can mask the Le/le gene difference. However, whilst Le plants respond equally to GA20 and GA1 , le plants respond only weakly to GA20 , the major biologically active gibberellin found in dwarf peas. These results suggest that the Le gene controls the production of a 3 β-hydroxylase capable of converting GA20 to GA1 . Further support for this view comes from feeds of [3 H] GA20 to Le and le plants. Plants with Le metabolise [3 H] GA20 to three major products whilst le plants produce only one major product after the same time. The metabolite common to Le and le plants co-chromatographs with GA29 . The additional two metabolites in Le peas co-chromatograph with GA1 and GA8 . 相似文献
16.
After the application of [13 C3 H]-gibberellin A20 to wild-type (tall) sweet peas ( Lathyrus odoratus L.) labelled gibberellin A1 (GA1 ), GA8 , GA29 and 2-epiGA29 were identified as major metabolities by gas chromatography-mass spectrometry after high performance liquid chromatography. By contrast in genetically comparable dwarf ( II ) plants only labelled GA29 and 2-epiGA29 were produced in significant amounts, although evidence was obtained for trace amounts of labelled GA1 and GA8 . The apical portions of dwarf plants contained 8–10 times less GA1 than those of tall plants but at least as much GA20 (measured using di-deuterated internal standards). In conjunction with previous data these results strongly indicate that in genotype ll internode length is reduced and leaf growth altered by a reduction in GA1 levels attributable to a partial block in the 3β-hydroxylation of GA20 to GA1 .
In contrast to dwarf plants, semidwarf plants (genotype lblb ) contained more GA1 in the apical portion than wild-type counterparts. This is consistent with the suggestion that lb alters some aspect of GA sensitivity. 相似文献
In contrast to dwarf plants, semidwarf plants (genotype lblb ) contained more GA
17.
Pea plants ( Pisum sativum L.) possessing the slender phenotype (conferred by the gene combination la crys ) have extremely long, thin internodes and are phenotypically similar to dwarf plants (possessing genes La and/or Cry ) that have been treated with a non-limiting dose of gibberellin (GA3 ). In contrast to tall and dwarf plants, slender plants are virtually insensitive to treatment with AMO 1618, PP333 or GA3 and addition of the "gibberellin-less" mutant gene na does not alter the phenotype of slender plants. Na slender segregates possessed lower levels of gibberellin-like substances than comparable dwarf segregates when extracts from shoots were assayed using the lettuce hypocotyl or rice seedling bioassays. In addition, na slenders possessed little or no gibberellin-like activity even though they possessed a slender phenotype. Thus the gene combination la crys causes slender plants to respond as if they are saturated with gibberellins for growth. In addition, the gene combinations la crys and le la cryc (allele cryc is less extreme in effect than crys ) are shown to be almost completely epistatic to the alleles at the na locus. All these results suggest that gibberellin levels are not important in determining the internode length of slender peas (genotype la crys ). The possible mechanisms by which this could occur are discussed. 相似文献
18.
Spray Clive Phinney Bernard O. Gaskin Paul Gilmour Sarah J. MacMillan Jake 《Planta》1984,160(5):464-468
[13C, 3H]Gibberellin A20 (GA20) has been fed to seedlings of normal (tall) and dwarf-5 and dwarf-1 mutants of maize (Zea mays L.). The metabolites from these feeds were identified by combined gas chromatography-mass spectrometry. [13C, 3H]Gibberellin A20 was metabolized to [13C, 3H]GA29-catabolite and [13C, 3H]GA1 by the normal, and to [13C, 3H]GA29 and [13C, 3H]GA1 by the dwarf-5 mutant. In the dwarf-1 mutant, [13C, 3H]GA20 was metabolized to [13C, 3H]GA29 and [13C, 3H]GA29-catabolite; no evidence was found for the metabolism of [13C, 3H]GA20 to [13C, 3H]GA1. [13C, 3H]Gibberellin A8 was not found in any of the feeds. In all feeds no dilution of 13C in recovered [13C, 3H]GA20 was observed. Also in the dwarf-5 mutant, the [13C]label in the metabolites was apparently undiluted by endogenous [13C]GAs. However, dilution of the [13C]label in metabolites from [13C, 3H]GA20 was observed in normal and dwarf-1 seedlings. The results from the feeding studies provide evidence that the dwarf-1 mutation of maize blocks the conversion of GA20 to GA1.Abbreviations GAn
gibberellin An
- GC-MS
combined gas chromatography-mass spectrometry
- HPLC
high-performance liquid chromatography
- RP
reverse phase 相似文献
19.
以甘蔗(Saccharum officinarum)优良品种桂糖42号(GT42)为研究材料, 分别于未伸长期(9-10叶龄以前) (Ls1)、伸长初期(12-13叶龄) (Ls2)和伸长盛期(15-16叶龄) (Ls3)取甘蔗第2片真叶(自顶部起)对应的节间组织, 测定其赤霉素(GA)、生长素(IAA)、油菜素甾醇(BR)、细胞分裂素(CTK)、乙烯(ETH)和脱落酸(ABA)的含量, 并通过实时荧光定量PCR (qRT-PCR)分析赤霉素合成途径关键基因GA20氧化酶基因(GA20-Oxidase1)、赤霉素受体基因(GID1)和DELLA蛋白编码基因(GAI)的差异表达。结果表明, 在甘蔗伸长期间, GA和IAA含量呈现上升趋势, CTK和ABA含量呈下降趋势, ETH含量先上升后下降, BR含量则变化不明显; GA20-Oxidase1和GID1的表达呈上升趋势, 而GAI的表达则呈下降趋势, 这与相关植物激素的变化基本一致。综上, 甘蔗节间伸长过程主要与GA和IAA相关, 其次为CTK和ABA, 而ETH受到IAA的调控影响节间伸长; 植物激素间通过相互作用调控GA20-Oxidase1、GID1和GAI的表达, 影响GA含量和GA的信号转导过程, 进而影响甘蔗节间的伸长。该研究揭示了甘蔗节间伸长过程中赤霉素生物合成途径和信号转导关键基因的差异表达及植物激素含量的动态变化规律。 相似文献
20.
Internode length in Pisum. Two further mutants, lh and ls, with reduced gibberellin synthesis, and a gibberellin insensitive mutant, lk 总被引:1,自引:0,他引:1
Three further internode length mutants in peas ( Pisum sativum L.), lh , ls and lk , were examined to determine if they influenced gibberellin synthesis or sensitivity. Two mutants, lh and ls , showed pronounced elongation in response to applied GA1 and extracts from their shoots contained little gibberellin-like activity when assayed on the rice seedling (cv. Tan ginbozu) bioassay compared with similar extracts from essentially isogenic Lh and Ls plants. The third mutant, lk , was almost insensitive to applied GA1 and at no dose rate did it become a phenocopy of normal Lk plants. Extracts from the shoots of lk and Lk segregants contained similar levels of gibberellinlike substances. All three mutants influenced growth in both the light and the dark, although only the effect of genes Lh and Ls were graft transmissible. These results suggest that lh and ls are mutants with reduced gibberellin synthesis, while lk is the first gibberellin-insensitive dwarfing gene identified in peas. 相似文献