ISSN:1040-4651    

DOI:10.1105/tpc.7.1.1

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.5

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Molecular species of phosphatidylglycerol that contain only 16:0, 18:0, and 16:1-trans fatty acids undergo the transition from liquid crystalline phase to gel phase at temperatures well above 20[deg]C. Several lines of evidence have been used to implicate elevated proportions of these high-melting-point molecular species as a major cause of plant chilling sensitivity. In the fatty acid biosynthesis 1 (fab1) mutant of Arabidopsis, leaf phosphatidylglycerol contained 43% high-melting-point molecular species[mdash]a higher percentage than is found in many chilling-sensitive plants. Nevertheless, the mutant was completely unaffected (when compared with wild-type controls) by a range of low-temperature treatments that quickly led to the death of cucumber and other chilling-sensitive plants. Our results clearly demonstrate that high-melting-point phosphatidylglycerols do not mediate classic chilling damage. However, growth of fab1 plants was compromised by long-term (>2 weeks) exposure to 2[deg]C. This finding and other observations are consistent with a proposition that plants native to tropical and subtropical regions have evolved many traits that are incompatible with long-term growth or development in cooler climates but that may confer selective advantages at high temperatures.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.17

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

In plants, programmed cell death is thought to be activated during the hypersensitive response to certain avirulent pathogens and in the course of several differentiation processes. We describe a transgenic model system that mimics the activation of programmed cell death in higher plants. In this system, expression of a bacterial proton pump in transgenic tobacco plants activates a cell death pathway that may be similar to that triggered by recognition of an incompatible pathogen. Thus, spontaneous lesions that resemble hypersensitive response lesions are formed, multiple defense mechanisms are apparently activated, and systemic resistance is induced in the absence of a pathogen. Interestingly, mutation of a single amino acid in the putative channel of this proton pump renders it inactive with respect to lesion formation and induction of resistance to pathogen challenge. This transgenic model system may provide insights into the mechanisms involved in mediating cell death in higher plants. In addition, it may also be used as a general agronomic tool to enhance disease protection.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.29

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Although key determinative events of the Rhizobium-legume symbiosis are likely to precede bacterial infection, no plant genes have been identified that are expressed strongly prior to infection and nodule morphogenesis. A subtractive hybridization-polymerase chain reaction technique was used to enrich for genes induced during the early phases of the R. meliloti-Medicago truncatula symbiosis. One gene so identified encodes a putative plant peroxidase protein, which we have named Rip1 for Rhizobium-induced peroxidase. The accumulation of rip1 transcript was rapidly and transiently induced by R. meliloti and by the corresponding lipooligosaccharide signal molecule Nod factor RmIV, which was both necessary and sufficient for rip1 induction. The duration of maximal rip1 expression coincided with the preinfection period: transcript levels for rip1 were near maximal by 3 hr postinoculation and declined by 48 hr, coincident with early infection events and the onset of nodule morphogenesis. Furthermore, although rip1 induction preceded bacterial infection by at least 24 hr, the transcript was localized to epidermal cells in the differentiating root zone that was subsequently infected by Rhizobium. Thus, a defining feature of the Rhizobium infection court is the prior induction of rip1 expression.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.43

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

The fertilization process of plants is governed by different kinds of cell-cell interactions. In higher plants, these interactions are required both for recognition of the pollen grain by the female reproductive system and to direct the growth of the pollen tube inside the ovary. Despite many years of study, the signaling mechanisms that guide the pollen tube toward its target, the ovule, are largely unknown. Two distinct types of principles, mechanical and chemotropic, have been suggested to account for the directed growth of the pollen tube. The first of these two types of models implies that the guidance of the pollen tube depends on the architecture and chemical properties of the female reproductive tissues, whereas the latter suggests that the ovule provides a signal for the target-directed growth of the pollen tube. To examine such a role for the ovules, we analyzed the growth path of pollen tubes in mutants defective in ovule development in Arabidopsis. The results presented here provide unique in vivo evidence for an ovule-derived, long-range activity controlling pollen tube guidance. A morphological comparison of the ovule mutants used in this study indicates that within the ovule, the haploid embryo sac plays an important role in this long-range signaling process.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.57

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

The significance of the onset and symmetry of pollen mitosis I (PMI) for the subsequent differentiation of the vegetative and generative cells was investigated by the in vitro maturation of isolated microspores of transgenic tobacco. Free uninucleate microspores of transgenic plants harboring the vegetative cell (VC)-specific late anther tomato lat52 promoter fused to the [beta]-glucuronidase (gus) gene showed normal asymmetric cell division at PMI and activated the lat52 promoter specifically in the nascent VC during in vitro maturation. In vitro maturation in the presence of high levels of colchicine effectively blocked PMI, resulting in the formation of uninucleate pollen grains in which the lat52 promoter was activated. Furthermore, matured uninucleate pollen grains were capable of germination and pollen tube growth despite the absence of a functional generative cell (GC). Lower levels of colchicine induced symmetric division at PMI, producing two similar daughter cells in which typical GC chromatin condensation was prevented. Similar cultures of transgenic microspores harboring the lat52 promoter driving the expression of a nuclear-targeted GUS fusion protein showed that lat52 promoter activation occurred in both symmetric daughter cells. These results directly demonstrate that division asymmetry at PMI is essential for correct GC differentiation and that activation of VC-specific transcription and functional VC maturation may be uncoupled from cytokinesis at PMI. These results are discussed in relation to models proposed to account for the role and distribution of factors controlling the differing fates of the vegetative and generative cells.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.65

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

The Anther ear1 (An1) gene product is involved in the synthesis of ent-kaurene, the first tetracyclic intermediate in the gibberellin (GA) biosynthetic pathway. Mutations causing the loss of An1 function result in a GA-responsive phenotype that includes reduced plant height, delayed maturity, and development of perfect flowers on normally pistillate ears. The an1::Mu2-891339 allele was recovered from a Mutator (Mu) F2 family. Using Mu elements as molecular probes, an An1-containing restriction fragment was identified and cloned. The identity of the cloned gene as An1 was confirmed by using a reverse genetics screen for maize families that contain a Mu element inserted into the cloned gene and then by demonstrating that the insertion causes an an1 phenotype. The predicted amino acid sequence of the An1 cDNA shares homology with plant cyclases and contains a basic N-terminal sequence that may target the An1 gene product to the chloroplast. The sequence is consistent with the predicted subcellular localization of AN1 in the chloroplast and with its biochemical role in the cyclization of geranylgeranyl pyrophosphate, a 20-carbon isoprenoid, to ent-kaurene. The semidwarfed stature of an1 mutants is in contrast with the more severely dwarfed stature of GA-responsive mutants at other loci in maize and may be caused by redundancy in this step of the GA biosynthetic pathway. DNA gel blot analysis indicated that An1 is a single-copy gene that lies entirely within the deletion of the an1-bz2-6923 mutant. However, homozygous deletion mutants accumulated ent-kaurene to 20% of the wild-type level, suggesting that the function of An1 is supplemented by an additional activity.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.75

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

A new family of three related cyclins has been identified in Arabidopsis by complementation of a yeast strain deficient in G1 cyclins. Individual members show tissue-specific expression and are conserved in other plant species. They form a distinctive group of plant cyclins, which we named delta-type cyclins to indicate their similarities with mammalian D-type cyclins. The sequence relationships between delta and D cyclins include the N-terminal sequence LXCXE. This motif was originally identified in certain viral oncoproteins and is strongly implicated in binding to the retinoblastoma protein pRb. By analogy to mammalian cyclin D, these plant homologs may mediate growth and phytohormonal signals into the plant cell cycle. In support of this hypothesis, we show that, on restimulation of suspension-cultured cells, cyclin delta 3 is rapidly induced by the plant growth regulator cytokinin and cyclin delta 2 is induced by carbon source.

ISSN:1040-4651    

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

In contrast to the well-defined tetrameric structure of animal and yeast casein kinase II (CKII), plant CKII is found in two forms: a monomeric form and an oligomeric form whose subunit composition is not well defined. The Arabidopsis homologs of the catalytic subunit alpha (CKA1) and the regulatory subunit beta (CKB1) of CKII were expressed in Escherichia coli to examine their ability to form complexes, the effect of CKB1 on the catalytic activity, and the relationship of the recombinant enzymes to those isolated from plant material. Both subunits were found mainly in the inclusion body fraction in the bacterial expression strains, and they were solubilized and renatured with the recovery of catalytic (CKA1) and stimulatory (CKB1) activities. The combination of purified CKA1 and CKB1 proteins resulted in up to 100-fold stimulation of casein kinase activity compared with the CKA1 activity alone, showing that CKB1 has biochemical properties similar to those of the beta subunit from animals. CKA1 and CKB1 spontaneously assembled into a tetrameric complex, CKA1(2)CKB12, which had properties very similar to those of the oligomeric CKII form isolated from broccoli. However, the properties of the catalytic subunit CKA1 alone differed from those of the broccoli monomeric form of CKII-like activity. Phosphorylation of transcription factor GBF1 with the reconstituted CKA1(2)CKB1(2) enzyme resulted in stimulation of its DNA binding activity and retardation of the protein-DNA complex; these results are identical to those obtained previously with isolated nuclear CKII from broccoli.

ISSN:1040-4651    

DOI:10.1105/tpc.7.1.105

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB