Transcript analysis of TR DNA in octopine-type crown gall tumors

Site-directed mutagenesis of the enhancer region of the 780 gene promoter of T-DNA

Potential regulatory sequences within the enhancer-like region of the 780 gene promoter (Agrobacterium tumefaciens T-DNA) were identified by site-directed mutagenesis. Transcriptional activity of the mutated promoter was analyzed by S1 nuclease mapping of RNA from crown gall tumors of sunflower incited using a T-DNA-based vector. Variability in expression levels were minimized by the use of an internal reference gene and the pooling of at least 200 tumors per construct tested. This approach identified numerous sequences that influence transcriptional activity in either a positive or negative manner. Eight regions of positive influence and three of negative were identified from analysis of those mutations that exhibited low variability in expression (P < 0.005) and affected activity by at least 20%.

Nuclear protein 780BP from cauliflower binds an element in the 780 gene promoter of T-DNA

A 16 bp site of protein binding has been identified in the promoter of the 780 gene of T-DNA. Specific DNA-protein interactions were demonstrated between a double-stranded oligonucleotide containing this element (5'-TTGAAAAATCAACGCT-3') and a protein isolated from nuclear extracts of cauliflower inflorescences. Specific bases required for this binding activity (780 binding protein; 780BP) were defined by kinetic competition studies with mutated oligonucleotides, methylation interference assays and DNAse I footprinting. 780BP binding was not competed with up to 1000-fold excess of previously characterized plant regulatory elements such as as-1, the LRE, and the ocs, G-box, and AT-rich elements. In addition, 780BP was shown to bind sequences overlapping a mammalian hormone receptor element with greater affinity than the 780 element.

Spontaneous mutation conferring the ability to catabolize mannopine in Agrobacterium tumefaciens

Two nopaline-type strains of Agrobacterium tumefaciens, C58 and T37, as well as strain A136, which is a Ti plasmid-cured derivative of strain C58, gave rise to spontaneous mutants that were able to grow on mannopine. The observation of mutagenesis with strain A136 demonstrated that the ability to acquire this new catabolic potential was independent of the presence of a Ti plasmid. The mutants were isolated after 4 weeks of incubation on minimal medium containing mannopine as the sole carbon source. They also utilized mannopinic acid, but not agropine or agropinic acid. In addition, the spontaneous mutant LM136, but not its parent strain A136, degraded many mannityl opine analogs. [14C]mannopine disappeared in the presence of LM136 cells which had been pregrown on opine or nonopine substrates. These results suggested that the catabolic system of this mutant was not subject to a stringent regulation. A clone conferring the ability to utilize mannopine on a recipient pseudomonad was selected from a genomic library from both the mutant LM136 and its parent strain. Only the LM136 clone was expressed in the parent Agrobacterium strain A136. Southern analysis showed that the genes for mannopine catabolism in the spontaneous mutants differed from the corresponding Ti plasmid-encoded genes of octopine-type or agropine-type Agrobacterium strains. Cells of LM136 utilized [14C]mannopine without generating detectable amounts of intracellular agropine. In contrast, a major fraction of the radioactivity recovered from cells of the octopine-type strain Ach5, after incubation on [14C]mannopine, was in the form of agropine.

Mannopine and mannopinic acid as substrates for Arthrobacter sp. strain MBA209 and Pseudomonas putida NA513

The characteristics of mannopine and mannopinic acid utilization by Agrobacterium tumefaciens B6S3, Arthrobacter sp. strain MBA209, and Pseudomonas putida NA513 were studied. Strain B6S3 utilized the four mannityl opines, mannopine, mannopinic acid, agropine, and agropinic acid. It also utilized several mannityl opine analogs, which were modified in either the sugar or the amino acid moiety. It utilized mannopine more rapidly after preincubation on mannopine, mannopinic acid, or glutamine than after pregrowth on glucose, mannose, or mannitol. Strains MBA209 and NA513 utilized mannopine and mannopinic acid, but not the other two mannityl opines. They utilized few mannityl opine analogs, sometimes because of failure to utilize the products of initial cleavage of the analog. Utilization of mannopine and mannopinic acid by strain NA513 was strictly dependent on prior growth on these substrates. A spontaneous regulatory variant of strain NA513 remained unable to utilize most of the mannityl opine analogs. Glutamine, mannose, and several analogs had no inhibitory effect on [14C]mannopine utilization by strain NA513.

Novel and useful properties of a chimeric plant promoter combining CaMV 35S and MAS elements

The CaMV 35S and Ti plasmid mannopine synthetase (mas) promoters are commonly used by plant genetic engineers. To combine their useful properties, we constructed hybrid promoters incorporating elements from both. These promoters were spliced to the beta-glucuronidase reporter gene and introduced into tobacco and tomato plants by Agrobacterium cocultivation. T1 and T2 transgenic plant populations transformed with different constructs were assayed for the marker enzyme. Comparisons were made based on the range of expression levels found for each promoter construct. We found that a hybrid promoter incorporating the mas region from +65 to -301 and the 35S enhancer region from -90 to -941 had new and interesting properties. This promoter, called Mac, expressed gus at a level three to five times that expressed by a double 35S promoter in the leaves, and 10 to 15 times in hypocotyls and roots. The Mac promoter, however, showed only marginal wound inducibility. Five- to seven-fold wound induction required the presence of the region from -301 to -613 of mas. Reiteration of the 35S enhancer region, from -90 to -430, behind the 35S TATA box region or the mas +65 to -301 region had a smaller effect on expression, ranging from equal to twice the level of the single enhancer control.

Deletion of DNA sequences flanking an Mr 19,000 zein gene reduces its transcriptional activity in heterologous plant tissues

Analysis of a series of clones containing deletions in the 5' noncoding sequence of a gene encoding an Mr 19,000 zein allowed identification of a region required for maximal transcription. Transcriptional activity was assayed in two heterologous plant systems. In one system, the Ti plasmid was used to introduce the modified zein genes into the sunflower genome. In the other system, electroporation was used to transform carrot protoplasts with plasmids containing the zein genes. For the electroporation experiments, the 5' noncoding sequences from the zein clones were linked to the protein coding sequence of chloramphenicol acetyl transferase. The results showed that an upstream sequence, delimited by nucleotides -337 and -125 with respect to the mRNA cap site, is required for maximal transcription of the gene. In contrast, very low levels of transcription were directed by constructs that contained 125 bp of 5' noncoding sequence that included the CAAT and TATA boxes, suggesting that the additional sequences (-337 to -125) further 5' exert a quantitative effect on transcription. Examination of the additional 5' sequences showed five regions that share homology with the SV40 enhancer core sequence.

Deletion analysis of the mannopine synthase gene promoter in sunflower crown gall tumors and Agrobacterium tumefaciens

We have used deletion mutagenesis to analyze a TR-DNA promoter from the octopine-type Ti plasmid pTiB6806. The promoter for the gene encoding mannopine synthase (mas) was cloned upstream of the bacterial kanamycin-resistance gene neomycin phosphotransferase II (NPT II). Bal31 deletion mutagenesis was used to generate deletion derivatives of the mas/NPTII gene beginning 1353 bp upstream of the initiation of transcription and extending to 120 bp downstream from the mRNA start site. Deletions that left intact 318 bp upstream of transcription initiation had no detectable effect on the ability of tumors harboring the deletion to synthesize correctly initiated mRNA or to grow on the kanamycin analogue G418. Deletion to-138 destroyed the ability of sunflower crown gall tumors to grow on G418 although low levels of the mas/NPTII transcript were detected in one tumor line. Deletions that left only 57 bp upstream of transcription initiation allowed neither growth on G418 nor detectable mas/NPTII synthesis, even though the CCAAT and TATAA homologies were intact. The mas promoter is functional in Agrobacterium tumefaciens and we present data concerning the effects of the Bal31 deletions on the growth of A. tumefaciens on kanamycin.

Chromatin structure of integrated T-DNA in crown gall tumors

We have investigated the chromatin structure of the integrated T-DNA in two N. tabacum crown gall tumor lines, and compared the results to those obtained in a previous study of the methylation patterns of these same integrated DNA sequences (Gelvin et al., Nucleic Acids Res. 11:159-174, 1983). The E9 octopine-type tumor contains a single copy of TL, whose transcription is essential for tumor maintenance, and 15-30 copies of TR, a non-essential region. The HT37#15 nopaline type teratoma contains a single copy of the nopaline T-DNA. All these integrated sequences can be found associated with nucleosomes, although the diffuse nature of the nucleosome bands on Southern transfers implies an 'open' chromatin conformation. In addition, all the sequences are more sensitive to digestion with deoxyribonuclease I than the bulk of the chromatin. We present evidence suggesting that, despite the previously published data that the majority of copies of the TR-DNA are highly methylated at the sequence CCGG whereas the TL-DNA is not, the majority of copies of the TR-DNA in the E9 tumor line are in the same chromatin conformation as TL. These data therefore suggest that most of the copies of TR-DNA are likely to be transcriptionally competent.

Site-specific mutagenesis in the TR-DNA region of octopine-type Ti plasmids

Site-specific insertion and deletion mutations affecting all six of the eukaryotic-like genes in the TR-DNA region of the octopine-type Ti plasmids pTil5955 or pTiA6 have been generated. None of the mutations affected virulence or tumor morphology on sunflower. Mutations in the coding regions of two of the genes resulted in tumors without any detectable mannopine, mannopinic acid or agropine, and mutations in either the coding region or in the 3' untranslated region of a third gene eliminated biosynthesis of agropine, but not mannopine or mannopinic acid. Detection of two previously unobserved silver nitrate-positive substance in tumors incited by one of the mutant strains, together with data on the presence of opines in tumors incited by coinoculation with mixtures of different mutant strains, allowed us to propose the functional order of all three genes involved in the biosynthesis of mannopine, mannopinic acid and agropine. TR-DNA was absent in tumors incited by anAgrobacterium tumefaciens strain harboring a Ti plasmid in which the right border of the TR-DNA region was deleted.

The nucleosome structure of the rRNA genes of some tumorous and nontumorous Nicotiana cell lines

The nucleosome structure of the nuclear rRNA genes was investigated in a variety of tumorous and nontumorous Nicotiana tabacum cell lines, and in a genetic tumor produced by crossing Nicotiana langsdorffii with Nicotiana glauca. The rRNA genes from two unorganized octopine type crown gall tumors were found in an altered nucleosome conformation compared to those of the other cell lines and N. tabacum leaves. The altered nucleosome structure of the rRNA genes in the octopine type crown gall lines was not due to the tumorous state of the tissue, nor was it related directly to the morphology of the tumor. These two lines did have, however, a greatly reduced rRNA gene copy number. Several Eco R1 fragments homologous to the rRNA gene probe were preferentially lost from one of these tumor lines. The alteration of the nucleosome structure of the remaining rRNA genes in the octopine type crown gall tumors may result from rapid transcription necessitated by their reduced copy number.

Analysis of transfer of tumor-inducing plasmids from Agrobacterium tumefaciens to Petunia protoplasts

Petunia protoplasts were infected with the virulent Agrobacterium tumefaciens strain A348 or the avirulent strain A136 (lacking a Ti plasmid). The infection process was stopped at various time intervals up to 24 h after inoculation, and the DNA from the plant cells was isolated. Southern blot analysis indicated that the DNA isolated from infected Petunia cells was not detectably contaminated by bacterial DNA from lysed Agrobacterium cells. Analysis of the DNA from the virulent infections suggested that the transferred DNA (T-DNA) may be transferred to the plant cell rapidly (within 2 to 6 h) after the bacteria bind to the cell wall and that the T-DNA may exist in a rearranged state which is stable over the time period investigated. Dot blot analysis indicated that regions far outside the T-DNA may be transferred to the plant cell. Most of the DNA transferred to the plant cell during the initial hours of infection is rapidly degraded.