Subscribe to RSS
DOI: 10.1055/s-2001-12904
Effect of Gibberellic Acid on Cell Division and Cell Elongation in Anthers of the Gibberellin Deficient gib-1 Mutant of Tomato
Publication History
October 11, 2000
February 19, 2001
Publication Date:
31 December 2001 (online)
Abstract
Analysis of flower development in the gibberellin (GA) deficient gib-1 tomato mutant showed that while flower development is arrested the anther growth slowed down unless GA was applied. Northern blot analyses showed that treatment with GA3 enhanced the expression of genes which are correlated with DNA replication (histones h1 and h2b) and cell elongation (expansin and α-tubulin). In anthers, at developmental arrest, cell elongation was affected in the tapetum, pollen mother cells and epidermal cells. Elongation was significantly less in the longitudinal direction, while in the transverse direction outer tapetum and pollen mother cells were also smaller. Except for the outer tapetum, the cell numbers were the same as in wild-type tomato, indicating that cell division was less influenced. Scanning electron microscopy revealed that on the lateral surface of gib-1 anthers the epidermal cells that were affected in their elongation due to GA deficiency did not differentiate into interlocking hairs. Induction of hair development, of which the timing was similar to wild type, occurred after treatment with GA3, GA1, GA4 and GA9, while GA20 was less effective. Analysis of the in situ localization of expansin and histone h2b transcripts in gib-1 anthers after GA3 treatment revealed that the increased mRNA accumulation was predominantly localized in the cells that were less elongated compared to wild-type cells. The consequence of reduced cell elongation due to GA deficiency on anther development is discussed.
Abbreviations
GA: gibberellic acid
PCR: polymerase chain reaction
PAGA: paraformaldehyde glutaraldehyde
SSC: saline sodium citrate
SDS: sodium dodecyl sulphate
EDTA: ethylenediaminetetraacetic acid
DIG: digoxigenin-UTP
Key words
Gibberellin - anther development - interlocking hairs - histones - expansin
References
- 01 Hooley, R.. (1994); Gibberellins: perception, transduction and responses. Plant Mol. Biol.. 26 1529-1555
- 02 Kende, H., and Zeevaart, J. A. D.. (1997); The five ‘classical’ plant hormones. Plant Cell. 9 1197-1210
- 03 Bensen, R. J., and Zeevaart, J. A. D.. (1990); Comparison of ent-kaurene synthetase A and B activities in cell-free extracts from young tomato fruits of wild-type and gib-1, gib-2, and gib-3 tomato plants. J. Plant Growth Regul.. 9 237-242
- 04 Koornneef, M.,, Bosma, T. D. G.,, Hanhart, C. J.,, Van der Veen, J. H.,, and Zeevaart, J. A. D.. (1990); The isolation and characterization of gibberellin-deficient mutants in tomato. Theor. Appl. Genet.. 80 852-857
- 05 Jacobsen, S. E., and Olszewski, N. E.. (1991); Characterization of the arrest in anther development associated with gibberellin deficiency of the gib-1 mutant of tomato. Plant Physiol.. 97 409-414
- 06 Nester, J. E., and Zeevaart, J. A. D.. (1988); Flower development in normal tomato and a gibberellin-deficient (ga-2) mutant. Amer. J. Bot.. 75 45-55
- 07 Waycott, W., and Taiz, L.. (1991); Phenotypic characterization of lettuce dwarf mutants and their response to applied gibberellins. Plant Physiol.. 95 1162-1168
- 08 Sauter, M., and Kende, H.. (1992); Gibberellin-induced growth and regulation of the cell division cycle in deepwater rice. Planta. 188 362-368
- 09 Sauter, M.,, Seagull, R. W.,, and Kende, H.. (1993); Internodal elongation and orientation of cellulose microfibrils and microtubules in deepwater rice. Planta. 190 354-362
- 10 Cho, H-T., and Kende, H.. (1997 b); Expansins and internodal growth of deepwater rice. Plant Physiol.. 113 1145-1151
- 11 Sauter, M.. (1997); Differential expression of a CAK (cdc2-activating kinase)-like protein kinase, cyclins and cdc2 genes from rice during the cell cycle and in response to gibberellin. Plant J.. 11 181-190
- 12 Shcherban, T. Y.,, Shi, J.,, Durachko, D. M.,, Guiltinan, M. J.,, McQueen-Mason, S. J.,, Shieh, M.,, and Cosgrove, D. J.. (1995); Molecular cloning and sequence analysis of expansins - a highly conserved, multigene family of proteins that mediate cell wall extension in plants. Proc. Natl. Acad. Sci. USA. 92 9245-9249
- 13 Sambrook, J.,, Fritsch, E. F.,, and Maniatis, T.. (1989) Molecular cloning - a laboratory manual, 2nd edn. Cold Spring Harbor, New York; Cold Spring Harbor Laboratory Press
- 14 Devereux, J.,, Haeberli, P.,, and Smithies, O.. (1984); A comprehensive set of sequence analysis programs for the VAX. Nucleic Acids Res.. 12 387-395
- 15 Van Eldik, G. J.,, Vriezen, W. H.,, Wingens, M.,, Ruiter, R. K.,, Van Herpen, M. M. A.,, Schrauwen, J. A. M.,, and Wullems, G. J.. (1995); A pistil-specific gene of Solanum tuberosum is predominantly expressed in the stylar cortex. Sex. Plant Reprod.. 8 173-179
-
16 Cox, K. H., and Goldberg, R. B.. (1988)
Analysis of plant gene expression. Plant Molecular Biology practical approach. Shaw, C. H., ed. Oxford; IRL Press - 17 de Almeida-Engler, J.,, van Montagu, M.,, and Engler, G.. (1994); Hybridization in situ of whole-mount messenger RNA in plants. Plant Mol. Biol. Rep.. 12 321-331
- 18 Osley, M. A.. (1991); The regulation of histone synthesis in the cell cycle. Annu. Rev. Biochem.. 60 827-861
- 19 Van den Heuvel, K. J. P. T.,, van Esch, R. J.,, Barendse, G. W. M.,, and Wullems, G. J.. (1999); Isolation and molecular characterization of gibberellin-regulated H1 and H2B histone cDNAs in the leaf of the gibberellin-deficient tomato. Plant Mol. Biol.. 39 883-890
- 20 Chandra Sekhar, K. N., and Sawhney, V. K.. (1984); A scanning electron microscope study of the development and surface features of floral organs of tomato (Lycopersicon esculentum). . Can. J. Bot.. 62 2403-2413
- 21 Konings, H.,, Berrevoets, M.,, Nagel, O.,, and Lambers, H.. (1992); Growth rate and plant development of tomato gib mutants in relation to endogenous gibberellic acid. Acta Bot. Neerl.. 41 208
- 22 Barlow, P. W.,, Brain, P.,, and Parker, J. S.. (1991); Cellular growth in roots of a gibberellin-deficient mutant of tomato (Lycopersicon esculentum Mill.) and its wild-type. J. Exp. Bot.. 42 339-351
- 23 Cosgrove, D. J.. (1997); Relaxation in a high-stress environment: the molecular bases of extensible cell walls and cell enlargement. Plant Cell. 9 1031-1041
- 24 McQueen-Mason, S. J.. (1995); Expansins and cell wall expansion. J. Exp. Bot.. 46 1639-1650
- 25 Cho, H-T., and Kende, H.. (1997 a); Expression of expansin genes is correlated with growth in deepwater rice. Plant Cell. 9 1661-1671
- 26 Mita, T., and Katsumi, M.. (1986); Gibberellin control of microtubule arrangement in the mesocotyl epidermal cells of the d5 mutant of Zea mays L. Plant Cell Physiol.. 27 651-659
- 27 Akashi, T., and Shibaoka, H.. (1987); Effects of gibberellin on the arrangement and the cold stability of cortical microtubules in epidermal cells of pea internodes. Plant Cell Physiol.. 28 339-348
- 28 Duckett, C. M., and Lloyd, C. W.. (1994); Gibberellic acid-induced microtubule reorientation in dwarf peas is accompanied by rapid modification of an α-tubulin isotype. Plant J.. 5 363-372
- 29 Brown, S. W.. (1949); Endomitosis in the tapetum of tomato. Amer. J. Bot.. 36 703-716
- 30 Melaragno, J. E.,, Mehrotra, B.,, and Coleman, A. W.. (1993); Relationship between endoploidy and cell size in epidermal tissue of Arabidopsis. . Plant Cell. 5 1661-1668
- 31 Chien, J. C., and Sussex, I. M.. (1996); Differential regulation of trichome formation on the adaxial and abaxial surfaces by gibberellins and photoperiod in Arabidopsis thaliana (L.) Heynh. Plant Physiol.. 111 1321-1328
- 32 Koshioka, M.,, Nishijima, T.,, Yamazaki, H.,, Liu, Y.,, Nonaka, M.,, and Mander, L. N.. (1994); Analysis of gibberellins in growing fruits of Lycopersicon esculentum after pollination or treatment with 4-chlorophenoxyacetic acid. J. Hort. Sci.. 69 171-179
G. J. Wullems
Department of Molecular Plant Physiology
University of Nijmegen
Toernooiveld 1
6525 ED Nijmegen
The Netherlands
Email: wullems@sci.kun.nl
Section Editor: U. Lüttge