Francine Casse-Delbart

Nucleotide sequence of potato virus Y (N strain) genomic RNA.

The complete nucleotide sequence of the genomic RNA of the potyvirus potato virus Y strain N (PVYn) was obtained from cloned cDNAs. This sequence is 9704 nucleotides long and can encode a polyprotein of 3063 amino acids. The positions of the cleavage sites at the N terminus of the capsid and cytoplasmic inclusion proteins have been determined. Other putative protein cleavage sites have been deduced by searching for consensus sequences and by analogy with the polyprotein of the tobacco vein mottling virus and of the tobacco etch virus. Comparison of the PVY polyprotein sequence with that of other potyvirus polyproteins shows similarities in genome organization and a high level of identity along most of the polyprotein, except for the putative proteins flanking the helper component. A search for specific protein motifs has revealed the existence of a potential metal-binding site at the putative N terminus of the helper component in potyviruses. The possible functions of this structure are discussed.

Genes controlling early and late functions in symbiosis are located on a megaplasmid in Rhizobium meliloti

SummaryLarge plasmids of molecular weight varying from 90 to around 200×106 have earlier been detected in most Rhizobium meliloti strains using an alkaline denaturation-phenol extraction procedure. With a less destructive method (Eckhardt 1978) it was possible additionally to detect one plasmid of molecular weight clearly greater than 300×106 (=megaplasmid) in all of twenty-seven R. meliloti strains of various geographical origins and nodulation groupings investigated. Four strains (RCR 2011, A145, S26 and CC2013) were found to carry one megaplasmid and no smaller plasmids. Hybridization experiments with Klebsiella pneumoniae and R. meliloti cloned nitrogenase structural genes D and H showed that these genes are located on the megaplasmid and not on the smaller plasmids.All of the ten independent spontaneous non-nodulating derivatives of three strains of R. meliloti were shown to have suffered a deletion in the nif DH region of the megaplasmid. These results indicate that a gene controlling an early step in nodule formation is located in the nif DH region of the megaplasmid. This indicates that the same replicon carries genes controlling early and late functions in symbiosis.

Independent induction of transformed roots by the TL and TR regions of the Ri plasmid of agropine type Agrobacterium rhizogenes

SummaryTo analyse the respective role of TL- and TR-DNA in root induction by agropine-type Agrobacterium rhizogenes Ri plasmids, deletions covering the TL- or the TR-regions were constructed in vitro and introduced into pRiA4 by marker exchange. Each T-region of pRiHRI was also cloned separately on an independent replicon and used in a binary system with the virulence functions of either an Ri or a Ti plasmid provided in trans. Transformed roots were induced on tobacco and tomato explants by TL-DNA as well as by TR-DNA, suggesting that agropine type Ri plasmids from strains A4 and HRI can induce root proliferation by two independent transformation mechanisms. The root induction by the TR-DNA is probably due to auxin biosynthesis by gene products of aux loci homologous to the tms genes of Ti plasmid T-DNA. The molecular mechanism of root proliferation induced by the TL-DNA is probably equivalent to that of mannopine type Ri plasmid T-DNA.

Further insight concerning the TL region of the Ri plasmid of Agrobacterium rhizogenes strain A4: transfer of a 1.9 kb fragment is sufficient to induce transformed roots on tobacco leaf fragments

SummaryDisarmed plant transformation vectors were used to assay the ability of subfragments of the T-regions of the Ri plasmid of agropine-type strain A4 of Agrobacterium rhizogenes to induce proliferation of transformed roots on tobacco leaf fragments. We have shown that a 6 kb region of TR-DNA, bearing the presumptive auxin synthesis genes, is capable of inducing transformed roots with an essentially normal phenotype as had been shown previously with the entire TR-region. A 1.9 kb fragment of the 20 kb TL-region is suffcient to induced transformed roots in the absence of exogenous hormones. These roots grow profusely on hormone-free medium, as is typical of roots transformed by the intact TL-DNA.

Restriction maps and homologies of the three plasmids of Agrobacterium rhizogenes strain A4

Agrobacterium rhizogenes strain A4 is a virulent agropine-type strain possessing three plasmids: plasmid a (pArA4a, 180 kb) is not necessary for plant transformation, plasmid b (250 kb) is the root-inducing plasmid (pRiA4), and plasmid c (pArA4c) is a cointegrate of pArA4a and pRiA4. The total plasmid DNA (pArA4) of strain A4 was cloned in the cosmid pHSG262 and the library obtained was used to establish BamHI maps of the three plasmids. The plasmids a and Ri have an apparently identical region and a partly homologous region, and are different in the remaining regions including their origins of replication. Another agropine-type A. rhizogenes strain, HRI, bears only one plasmid, which is the Ri plasmid (pRiHRI). pRiHRI and pRiA4 present the same restriction maps for a great part, but are different in a region of 48 kb; however, this region of pRiHRI is found unmodified in pArA4a and may have a role in the virulence of the bacteria. The comparison between the restriction maps of the plasmids of strain A4 leads us to propose that the recombination event leading to pArA4c formation occurs within the identical regions of pArA4a and pRiA4. In addition, the comparison with the already established map of pRiHRI suggests that strain HRI could have been derived from a recombination event between the two homologous regions of pArA4c with subsequent loss of the smaller plasmid.

Mutations in zucchini yellow mosaic virus helper component protein associated with loss of aphid transmissibility.

Zucchini yellow mosaic virus (ZYMV) is a potyvirus transmitted by aphids in a non-persistent manner. Isolates having partially or totally lost their ability to be transmitted by aphids have been isolated and found to be affected in their helper component activities. We have sequenced the helper component coding region of poorly aphid-transmissible (PAT) variants of two strains of ZYMV, E15 and R5A. Mutations have been identified at the nucleotide level leading to two amino acid changes in the E15 PAT variant helper component and to one amino acid change located in the cysteine-rich region (well-conserved among potyviruses) in R5A PAT variant helper component. The mutation in the R5A variant changes the same amino acid as the one identified in potato virus C, a non-transmissible strain of potato virus Y.

Localization and restriction maps of the replication origin regions of the plasmids of Agrobacterium rhizogenes strain A4

SummaryBanks of cosmids of the plasmids of the agropine-type Agrobacterium rhizogenes strain A4 were used to transform Agrobacterium tumefaciens strain C58C1, which lacks a Ti plasmid. Hybrid cosmids able to be maintained in this strain were subcloned to localize precisely the origin of replication regions. These regions were mapped with restriction enzymes and compared by hybridization with those of Agrobacterium tumefaciens nopaline pTiC58 and octopine pTiAch5. This led to the characterization of three new plasmids suitable as cloning vectors in Escherichia coli and A. tumefaciens. They are compatible with pTi and pAt plasmids of A. tumefaciens and are maintained stably, even without selection pressure.

A new vector derived from Agrobacterium rhizogenes plasmids: a micro-Ri plasmid and its use to construct a mini-Ri plasmid

A new binary vector system has been constructed, based on agropine-type root-inducing plasmid (pRi) left transferred-region border sequences cloned in a plasmid containing the replication origin of another A. rhizogenes plasmid (pArA4a). This micro-pRi has been used to introduce a chimeric kanamycin resistance gene into tobacco plants, vir functions being provided by either octopine or nopaline tumor-inducing plasmids deleted of their own transferred regions. In addition, we show that cloning of pRi EcoRI fragment 15, which contains three open reading frames (which may correspond to loci rolA, B and C), in the micro-Ri vector generates a mini-pRi capable of inducing the proliferation of transformed roots.

Switches in the mode of transmission select for or against a poorly aphid-transmissible strain of potato virus Y with reduced helper component and virus accumulation

A poorly aphid-transmissible potato virus Y (PVY-PAT) variant emerged after several cycles of mechanical transmission of an initially aphid-transmissible (AT) isolate. Sequence analysis of the N-terminal region of the helper component-proteinase (HC-Pro) gene revealed a Lys to Glu change at a position previously found to abolish the HC-Pro aphid transmission activity in several potyviruses. Two cycles of aphid transmission allowed the virus population to evolve towards an AT form (PVY-ATnew) where a Glu to Lys change was observed. PVY-PAT produced lower amounts of coat protein and the accumulation of its HC-Pro in infected plants decreased from 7 to 28 days post-inoculation, as compared to PVY-ATnew. RT-PCR and restriction analysis showed that the two virus populations co-existed in the PVY-AT isolate and that the AT form was counter-selected during mechanical transmission. These observations suggest that the Lys to Glu substitution leads to decreased stability of HC-Pro resulting in poor transmissions by aphids, and further strengthen the idea that HC-Pro is involved in the accumulation of potyvirus in infected plants.

Expression vectors based on the Agrobacterium rhizogenes Ri plasmid transformation system

This article describes several new expression vectors that capitalize on the ability of Agrobacterium rhizogenes to transfer DNA from its Ri plasmid to the plant nuclear genome. The intermediate vectors described include an expression cassette based on one of the three following promoters: the nopaline synthase promoter, or the cauliflower mosaic virus (CaMV) promoters responsible for transcription of either the 19S or 35S CaMV RNA. The termination and polyadenylation signals are either from the nopaline synthase gene or from CaMV. The expression micro-Ri plasmid described bears a selectable marker gene and an expression cassette cloned between the borders of the TL-region of the Ri plasmid of A. rhizogenes A4. Different strategies for using these vectors to introduce chimeric genes into plants are described, and the advantages and disadvantages of the two types of vectors are discussed.This article describes several new expression vectors that capitalize on the ability of Agrobacterium rhizogenes to transfer DNA from its Ri plasmid to the plant nuclear genome. The intermediate vectors described include an expression cassette based on one of the three following promoters: the nopaline synthase promoter, or the cauliflower mosaic virus (CaMV) promoters responsible for transcription of either the 19S or 35S CaMV RNA. The termination and polyadenylation signals are either from the nopaline synthase gene or from CaMV. The expression micro-Ri plasmid described bears a selectable marker gene and an expression cassette cloned between the borders of the TL-region of the Ri plasmid of A. rhizogenes A4. Different strategies for using these vectors to introduce chimeric genes into plants are described, and the advantages and disadvantages of the two types of vectors are discussed.