Crown-gall-resistant transgenic apple trees that Silence Agrobacterium tumefaciens oncogenes

Crown gall disease is an economically significant problem in fruit and nut orchards, vineyards, and nurseries worldwide. Tumors on stems and leaves result from excessive production of the phytohormones auxin and cytokinin in plant cells genetically transformed by Agrobacterium tumefaciens. High phytohormone levels result from expression of three oncogenes transferred stably into the plant genome from A. tumefaciens: iaaM, iaaH, and ipt. The iaaM and iaaH oncogenes direct auxin biosynthesis, and the ipt oncogene causes cytokinin production. In contrast to other tissues, roots do not respond to high cytokinin levels, and auxin overproduction is sufficient to cause tumor growth on roots. Inactivation of iaaM abolished gall formation on apple tree roots. Transgenes designed to express double-stranded RNA from iaaM and ipt sequences prevented crown gall disease on roots of transgenic apple trees.these authors contributed equally to this workthese authors contributed equally to this work     

Crown gall disease and hairy root disease : a sledgehammer and a tackhammer

The neoplastic diseases crown gall and hairy root are incited by the phytopathogenic bacteria Agrobacterium tumefaciens and Agrobacterium rhizogenes, respectively. Although the molecular mechanism of T-DNA transfer to the plant most likely is the same for both species, the physiological basis of tumorigenesis is fundamentally different. Crown gall tumors result from the over-production of the phytohormones auxin and cytokinin specified by A. tumefaciens T-DNA genes. Although the T-DNA of some Riplasmids of A. rhizogenes contains auxin biosynthetic genes, these loci are not always necessary for hairy root formation. Recent experiments suggest that hairy root tumors result from the increased sensitivity of transformed cells to endogenous auxin levels. An understanding of hairy root tumorigenesis will likely result in an increased knowledge of plant developmental processes.     

Inhibition of agrobacterial oncogene expression by means of antisense RNAs

Infection of plants by soil bacterium Agrobacterium tumefaciens induces tumors referred to as crown galls. Tumor development is determined by the introduction of agrobacterial genes governing phytohormone (auxin and cytokinin) production into the plant genome. The most important of these genes are iaaM and ipt. Development of transgenic plants inhibiting the expression of these genes allows a raise of varieties resistant to crown gall disease. For this purpose, single and double tobacco transformants with antisense copies of iaaM and ipt fused with single and double promoters for the 35S RNA of the cauliflower mosaic virus (CaMV 35S and CaMV 35SS) were obtained. Inoculation of transgenic plants harboring the antisense oncogene copies with virulent A. tumefaciens strains C58 (pTiC58) and A6 (pTiA6) revealed significant, but still incomplete, inhibition of these genes. Agrobacterium-mediated transformation of transgenic plants gave rise to weakened tumors, which varied in morphology and allowed regeneration of whole plants. Analysis of the inhibition of the iaaM and ipt expression in tumor cells demonstrated that the RNA interference strategy is promising for developing plant varieties resistant to agrobacterial infection.     

Octopine Accumulation Early in Crown Gall Development is Progressive

A purification of octopine from crown gall tissue was developed to quantitate conversion of precursor [³H]arginine into [³H]octopine. Plant wound tissue which was sterile or infected with an avirulent strain of Agrobacterium tumefaciens did not accumulate detectable quantities of octopine, consistent with opine synthesis not being induced by wounding or infection. Octopine was only recovered from tissue infected with virulent tumor-inducing strains of A. tumefaciens. In every case tested, the morphological appearance of tumors preceded the accumulation of octopine by at least 1 week, and in some instances 3 weeks. Thus, what was necessary and sufficient for the expression of plant hormones (auxin and cytokinin) required for tumor growth was not sufficient for the accumulation of octopine. The possible nature of the temporal difference in the expression of hormone autotrophy and octopine synthesis is discussed.     

Temperature-sensitive loss of tumor characteristics in a tobacco crown gall strain

Summary Three independently isolated tobacco crown gall strains incited byAgrobacterium tumefaciens C58 required phytohormone (auxin and cytokinin) supplements in the basal medium to grow, at 37°C. Six other tobacco crown gall strains incited, respectively, byA. tumefaciens IIBV7, B6, CGIC, A6NC, 27 and AT4 expressed, at 37°C, the tumor characteristic of ability to grow in vitro on medium lacking phytohormones. Nopaline was not detectable in C58 tumors cultured at 37°C, but octopine was produced by B6 tumor tissues incibated at the elevated temperature. C58 tumor strains kept at 37°C for 1 week or more lost the ability to express tumor characteristics at 27°C such as tissue morphology, growth on basal medium lacking phytohormones and nopaline production. Heat-treated C58 tissues also differed from the original tumor strain in regeneration ability and phytohormone requirements of explants; i.e. explants from regenerated, heart-treated C58 tumors required both auxin and cytokinin for growth in vitro.     

Bioassay and attributes of a growth factor associated with crown gall tumors

An improved bioassay is described for a factor that promotes tumor growth which was first obtained from extracts of pinto bean leaves with crown gall tumors. Sixteen primary pinto bean leaves per sample are inoculated with sufficient Agrobacterium tumefaciens to initiate about 5 to 10 tumors per leaf and treated with tumor growth factor at day 3 after inoculation. The diameters of 30 to 48 round tumors (no more than 3 randomly selected per leaf) are measured per test sample at day 6. Mean tumor diameter increased linearly with the logarithm of the concentration of tumor growth factor applied. The tumor growth factor was separated by column chromatography from an ultraviolet light-absorbing compound previously reported to be associated with fractions having maximal tumor growth factor activity. Partly purified tumor growth factor showed no activity in a cytokinin bioassay or an auxin bioassay, and negligible activity in gibberellin bioassays. Representatives of these three classes of growth factors did not promote tumor growth. Extracts from crown gall tumors on primary pinto bean leaves, primary castor bean leaves, Bryophyllum leaves, carrot root slices, and tobacco stems showed tumor growth factor activity, whereas extracts from healthy control tissues did not. Extracts from actively growing parts of healthy pinto beans, Bryophyllum, and tobacco, however, showed tumor growth factor activity. Tumor growth factor is proposed to be a normal plant growth factor associated with rapidly growing tissues. Its synthesis may be activated in nongrowing tissues by infection with Agrobacterium sp.     

Hormonal control of tobacco crown gall tumor morphology

The endogenous levels of auxin and cytokinin in teratoma and unorganized tobacco (Nicotiana tabacum L. var Wisconsin #38) crown gall tumor tissues were determined. Teratoma tissues contain levels of auxin and cytokinin favorable for shoot formation, whereas unorganized tumors contain levels of auxin that suppress shoot formation. This conclusion is based upon the observation that when levels of auxin and cytokinin similar to those found in a teratoma were added to the growth medium of nontumorous tobacco tissue, shoot formation resulted; when levels similar to those found in unorganized tumors were added, the normal tissue grew as unorganized callus.     

The Never ripe Mutant Provides Evidence That Tumor-Induced Ethylene Controls the Morphogenesis of Agrobacterium tumefaciens-Induced Crown Galls on Tomato Stems

We confirm the hypothesis that Agrobacterium tumefaciens-induced galls produce ethylene that controls vessel differentiation in the host stem of tomato (Lycopersicon esculentum Mill.). Using an ethylene-insensitive mutant, Never ripe (Nr), and its isogenic wild-type parent we show that infection by A. tumefaciens results in high rates of ethylene evolution from the developing crown galls. Ethylene evolution from isolated internodes carrying galls was up to 50-fold greater than from isolated internodes of control plants when measured 21 and 28 d after infection. Tumor-induced ethylene substantially decreased vessel diameter in the host tissues beside the tumor in wild-type stems but had a very limited effect in the Nr stems. Ethylene promoted the typical unorganized callus shape of the gall, which maximized the tumor surface in wild-type stems, whereas the galls on the Nr stems had a smooth surface. The combination of decreased vessel diameter in the host and increased tumor surface ensured water-supply priority to the growing gall over the host shoot. These results indicate that in addition to the well-defined roles of auxin and cytokinin, there is a critical role for ethylene in determining crown-gall morphogenesis.     

Expression from heterologous promoters in electroporated carrot protoplasts

Plasmids were constructed that contained promoters of `plant' genes fused to the bacterial gene for chloramphenicol acetyl transferase. The promoters were isolated from a developmentally regulated Zea mays seed storage protein gene and from the mannopine synthase gene of the octopine type Ti plasmid of Agrobacterium tumefaciens which is constitutively expressed in crown gall tumors. These plasmids were introduced into carrot protoplasts made permeable by electroporation. Expression of chloramphenicol acetyl transferase activity directed by both promoters was positively correlated with DNA concentration. The efficiency of gene transfer was increased by inclusion of polyethylene glycol and by optimization of the voltage used in electroporation.     

Agrobacterium‐produced and exogenous cytokinin‐modulated Agrobacterium‐mediated plant transformation

Agrobacterium tumefaciens is a plant pathogenic bacterium that causes neoplastic growths, called ‘crown gall’, via the transfer and integration of transferred DNA (T‐DNA) from the bacterium into the plant genome. We characterized an acetosyringone (AS)‐induced tumour‐inducing (Ti) plasmid gene, tzs (trans‐zeatin synthesizing), that is responsible for the synthesis of the plant hormone cytokinin in nopaline‐type A. tumefaciens strains. The loss of Tzs protein expression and trans‐zeatin secretions by the tzs frameshift (tzs‐fs) mutant is associated with reduced tumorigenesis efficiency on white radish stems and reduced transformation efficiencies on Arabidopsis roots. Complementation of the tzs‐fs mutant with a wild‐type tzs gene restored wild‐type levels of trans‐zeatin secretions and transformation efficiencies. Exogenous application of cytokinin during infection increased the transient transformation efficiency of Arabidopsis roots infected by strains lacking Tzs, which suggests that the lower transformation efficiency resulted from the lack of Agrobacterium‐produced cytokinin. Interestingly, although the tzs‐fs mutant displayed reduced tumorigenesis efficiency on several tested plants, the loss of Tzs enhanced tumorigenesis efficiencies on green pepper and cowpea. These data strongly suggest that Tzs, by synthesizing trans‐zeatin at early stage(s) of the infection process, modulates plant transformation efficiency by A. tumefaciens.     

Expression of the isopentenyl transferase gene is regulated by auxin in transgenic tobacco tissues

The isopentenyl transferase gene (ipt) fromAgrobacterium tumefaciens was isolated and introduced, via a disarmed binary vector, into tobacco using theAgrobacterium tumefaciens-mediated gene transfer system. The expression of theipt gene was monitored by RNA hybridization, western blotting and cytokinin analysis. The addition of auxin to the media rapidly reduced the level of cytokinins in the transgenic tissues and this was associated with a reduction in IPT mRNA and protein levels. It is concluded that the hormone auxin can regulate expression of a gene involved in biosynthesis of the second hormone cytokinin. Although exogenous benzyladenine did not directly affectipt gene expression, it did antagonize the effect of auxin on levels of cytokinins and IPT mRNA and protein.     

Functional Expression of Agrobacterium tumefaciens T-DNA onc-genes in Asparagus Crown Gall Tissues

We analyzed Asparagus crown gall tissues transformed with A.tumefaciens C58 and C58C1 (pTiB6S3) and selected for hormoneautotrophic growth. No increased IAA levels were observed inthe Asparagus tumor lines notwithstanding the presence of allthree T-DNA onc genes. The endogenous cytokinin levels indicatethat Asparagus crown gall is dependent on enhanced zeatin ribosideequivalent levels for its growth. We conclude that phytohormone autotrophic growth of Asparaguscrown gall tissue seems only to be dependent upon an activegene 4, inducing enhanced cytokinin levels. Moreover, the presenceof an active gene 1 seems to be lethal as was indicated by theabsence of tryptophan-2-mono-oxygenase activity in transformedtissues and the toxicity of exogenously supplied indole-3-acetamide(IAM) or naphthalene-1-acetamide (NAM) as a substitute for anactive gene 1. (Received August 7, 1989; Accepted October 31, 1989)     

A new amino acid derivative present in crown gall tumor tissue

A new amino acid derivative has been found in primary and secondary sunflower crown gall tissue cultures and in fresh crown gall tumors from sunflower plants wound-inoculated with Agrobacterium tumefaciens B₆. Normal plant tissue does not contain detectable levels of the compound. Radioactive labeling and cochromatography experiments strongly suggest that the natural derivative is identical to synthetic N²-(1-carboxyethyl)-L-histidine (histopine). Crown gall tissue cultures contain 1 μmole of histopine/20 g fresh weight. A. tumefaciens strain B₆, but not strain C₅₈, can utilize natural histopine and incorporate the products into macromolecules.