Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/internode-length-in-pisum-iv-the-effect-of-the-le-gene-on-gibberellin-qiGdo62A2E
References (42)
-
Frydman Frydman, MacMillan MacMillan (1973)
Identification of gibberellins A 20 and A 29 in seed of Pisum sativum cv. Progress No. 9 by combined gas chromatography –mass spectrometryPlanta, 115
-
R. Durley, J. Macmillan, R. Pryce (1971)
Investigation of gibberellins and other growth substances in the seed of Phaseolus multiflorus and of Phaseolus vulgaris by gas chromatography and by gas chromatography-mass spectrometryPhytochemistry, 10
-
B. Baldev, A. Lang, A. Agatep (1965)
Gibberellin Production in Pea Seeds Developing in Excised Pods: Effect of Growth Retardant AMO-1618Science, 147
-
H. Yamane, N. Murofushi, Hideo Osada, N. Takahashi (1977)
Metabolism of gibberellins in early immature bean seedsPhytochemistry, 16
-
W. Potts, J. Reid (1983)
Internode length in Pisum. III The effect and interaction of the Na/na and Le/le gene differences on endogenous gibberellin‐like substancesPhysiologia Plantarum, 57
-
P. Gaskin, J. Macmillan, R. Firn, R. Pryce (1971)
“Parafilm”: A convenient source of n-alkane standards for the determination of gas chromatographic retention indicesPhytochemistry, 10
-
I. Railton, R. Durley, R. Pharis (1974)
Metabolism of Tritiated Gibberellin A(9) by Shoots of Dark-grown Dwarf Pea, cv. Meteor.Plant physiology, 54 1
-
Eeuwens Eeuwens, Gaskin Gaskin, MacMillan MacMillan (1973)
Gibberellin A 20 in seed of Pisum sativum L., cv. AlaskaPlanta, 115
-
I. Railton, N. Murofushi, R. Durley, R. Pharis (1974)
Interconversion of gibberellin A20 to gibberellin A29 by etiolated seedlings and germinating seeds of dwarf Pisum sativumPhytochemistry, 13
-
Hedden Hedden, MacMillan MacMillan, Phinney Phinney (1978)
The metabolism of the gibberellinsAnnu. Rev. Plant Physiol., 29
-
R. Jones, A. Lang (1968)
Extractable and Diffusible Gibberellins From Light- and Dark-grown Pea Seedlings.Plant physiology, 43 4
-
Haan Haan (1927)
Length factors in PisumGenetica, 9
-
Wellensiek Wellensiek (1969)
The physiological effects of flower forming genes in peasZ. Pflanzenphysiol., 60
-
Sponsel Sponsel, MacMillan MacMillan (1978)
Metabolism of gibberellin A 29 in seeds of Pisum sativum cv. Progress No. 9; use of ( 2 H) and ( 3 H) GAs, and the identification of a new GA catabolitePlanta, 144
-
McComb McComb, McComb McComb (1970)
Growth substances and the relation between phenotype and genotype in Pisum sativumPlanta, 91
-
J. Reid, I. Murfet, W. Potts (1983)
Internode Length in Pisum. II. Additional Information on the Relationship and Action of Loci Le, La, Cry, Na and LmJournal of Experimental Botany, 34
-
B. Lance, R. Durley, D. Reid, T. Thorpe, R. Pharis (1976)
Metabolism of [H]Gibberellin A(20) in Light- and Dark-grown Tobacco Callus Cultures.Plant physiology, 58 3
-
H. Kende, A. Lang (1964)
Gibberellins and Light Inhibition of Stem Growth in Peas.Plant physiology, 39 3
-
Köhler Köhler (1970)
The effect of red light on the growth and the gibberellin content of pea seedlingsZ. Pflanzenphysiol., 62
-
Davies Davies, Emshwiller Emshwiller, Gianfagna Gianfagna, Proebsting Proebsting, Noma Noma, Pharis Pharis (1982)
The endogenous gibberellins of vegetative and reproductive tissue of G2 peasPlanta, 154
-
Ingram Ingram, Browning Browning (1979)
Influence of photoperiod on seed development in the genetic line of peas G2 and its relation to changes in endogenous gibberellins measured by combined gas chromatography‐mass spectrometryPlanta, 146
-
M. Jones, J. Metzger, J. Zeevaart (1980)
Fractionation of gibberellins in plant extracts by reverse phase high performance liquid chromatography.Plant physiology, 65 2
-
Frydman Frydman, Gaskin Gaskin, MacMillan MacMillan (1974)
Qualitative and quantitative analyses of gibberellins throughout seed maturation in Pisum sativum cv. Progress No. 9Planta, 118
-
T. Douglas, L. Paleg (1974)
Plant growth retardants as inhibitors of sterol biosynthesis in tobacco seedlings.Plant physiology, 54 3
-
R. Binks, J. Macmillan, R. Pryce (1969)
Plant hormones—VIIIPhytochemistry, 8
-
Binks Binks, MacMillan MacMillan, Pryce Pryce (1969)
Combined gas chromatography‐mass spectrometry of the methyl esters of gibberellins A 1 to A 24 and their trimethylsilyl ethersPhytochemistry, 8
-
W. Potts, J. Reid, I. Murfet (1982)
Internode length in Pisum. I. The effect of the Le/le gene difference on endogenous gibberellin‐like substancesPhysiologia Plantarum, 55
-
H. Yamane, N. Murofushi, N. Takahashi (1975)
Metabolism of gibberellins in maturing and germinating bean seedPhytochemistry, 14
-
P. Hedden, A. Macmillan, B. Phinney (1978)
The Metabolism of the GibberellinsAnnual Review of Plant Biology, 29
-
R. Durley, A. Crozier, R. Pharis, G. McLaughlin (1972)
Chromatography of 33 gibberellins on a gradient eluted silica gel partition columnPhytochemistry, 11
-
Sponsel Sponsel, MacMillan MacMillan (1977)
Further studies on the metabolism of gibberellins (GAs) A 9 , A 20 and A 29 in immature seeds of Pisum sativum cv. Progress No. 9Planta, 135
-
Dwarf Peas, R. Lockard, C. Grunwald (1970)
Grafting and gibberellin effects on the growth of tall and dwarf peas.Plant physiology, 45 2
-
Paul Ecklund, T. Moore (1968)
QUANTITATIVE CHANGES IN GIBBERELLIN AND RNA CORRELATED WITH SENESCENCE OF THE SHOOT APEX IN THE ‘ALASKA’ PEAAmerican Journal of Botany, 55
-
M. Chaĭlakhyan, K. Timiriazev (1979)
GENETIC AND HORMONAL REGULATION OF GROWTH, FLOWERING, AND SEX EXPRESSION IN PLANTSAmerican Journal of Botany, 66
-
Sponsel Sponsel, Gaskin Gaskin, MacMillan MacMillan (1979)
The identification of gibberellins in immature seeds of Vicia faba , and some chemotaxonomic considerationsPlanta, 146
-
D. Köhler, A. Lang (1963)
Evidence for Substances in Higher Plants Interfering with Response of Dwarf Peas to Gibberellin.Plant physiology, 38 5
-
M. Radley (1958)
The Distribution of Substances similar to Gibberellic Acid in Higher PlantsAnnals of Botany, 22
-
D. Dennis, C. Upper, C. West (1965)
An enzymic site of inhibition of gibberellin biosynthesis by Amo 1618 and other plant growth retardants.Plant physiology, 40 5
-
Frydman Frydman, MacMillan MacMillan (1975)
The metabolism of gibberellins A 9 , A 20 and A 29 in immature seed of Pisum sativum cv. Progress No. 9Planta, 125
-
Brian Brian (1957)
The effects of some microbial metabolic products on plant growthSymp. Soc. Exp. Biol., 11
-
Dennis Dennis, Upper Upper, West West (1965)
An enzymatic site of inhibition of gibberellin biosynthesis by AMO1618 and other plant growth substancesPlant Physiol., 40
-
Trewavas Trewavas (1981)
How do plant growth substances workPlant Cell Environ., 4
- Publisher
- Wiley
- Copyright
- Copyright © 1983 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0031-9317
- eISSN
- 1399-3054
- DOI
- 10.1111/j.1399-3054.1983.tb06288.x
- Publisher site
- See Article on Publisher Site
Abstract
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 (3H) GA20 to Le and le plants. Plants with Le metabolise (3H) 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.
Journal
Physiologia Plantarum – Wiley
Published: Dec 1, 1983