M. Lanneau

Comparison of monoclonal antibodies and polymerase chain reaction assays for the typing of isolates belonging to the D and M serotypes of plum pox potyvirus

ABSTRACT Plum pox potyvirus (PPV) isolates may be divided into four groups separated by serological, molecular, and epidemiological differences. Monoclonal antibodies specific for the two major groups of isolates, represented by the D and M serotypes of the virus, have been obtained. Polymerase chain reaction (PCR)-based assays allowing the direct detection and differentiation of PPV isolates have also been developed. We now report on a large-scale comparison of these two typing approaches. The results obtained show an overall excellent correlation between the results obtained in indirect double-antibody sandwich enzyme-linked immunosorbent assay using PPV-D- and PPV-M-specific monoclonal antibodies and those derived from either specific PCR assays or restriction fragment length polymorphism analysis of PCR fragments. Without exception, all isolates reacting positively with the PPV-M-specific monoclonal antibody were found to belong to the M serotype using the PCR-based assays, while 51 out of 53 isolates recognized by the D-specific monoclonal antibodies belonged to the D serotype according to the PCR typing results. However, failure to react with a specific monoclonal antibody did not prove as effective a predictor of the serotype of the isolate analyzed. In a few cases, the results obtained with the various techniques diverged, indicating low level variability of the epitopes recognized by the serotype-specific monoclonal antibodies. Isolates belonging to the two minor groups of PPV (El Amar and Cherry) also gave divergent results, indicating that the current typing assays are not suited for the analysis of such isolates.

Transformation of ram spermatid chromatin

Abstract In order to investigate the sequence of changes in nuclear basic proteins throughout ram spermiogenesis, we have used different techniques to obtain populations of spermatid nuclei in specific stages of maturation. Sedimentation of testis cells at 1 gravity followed by treatment with Triton X-100 resulted in one population of round spermatid nuclei (steps 1–a), one of non-round spermatid nuclei (steps 8b-15), and one of elongated spermatid nuclei (steps 12–15). Populations of non-round spermatid nuclei were obtained by treatment with EDTA (steps 9–15), by sonication (steps 12–15) and digestion by DNase (steps 13–15). Nuclear proteins, extracted either directly with dilute acid or following a reducing treatment with 2-mercaptoethanol were characterized by polyacrylamide gel electrophoresis. The most striking alterations in protein composition occur during the elongation phase (steps 8–12). The five histones are displaced from chromatin at the same rate. When they are freed of histones (step 12), the nuclei start to accumulate the sperm-specific protein (BNSP) which is then partly extractable by dilute acid without a thiol that is required for its extraction from more mature nuclei. This stepwise replacement process is accompanied by a reduction of the basic protein amount bound to DNA. As soon as histones begin to disappear, eight spermatidal protein fractions are present in the nuclei until the BNSP synthesis reaches its maximum rate. Except for one, they all contain cysteine and are partially intermolecularly cross-linked in the chromatin. After in vivo and in vitro labelling experiments, they are synthesized in elongating spermatids (steps 8–11). None are degradation products of histones. Correlations of the times of onset of EDTA, sonication and DNase resistances with changes in the basic nuclear proteins point out that stabilization and condensation of spermatid chromatin is promoted through a progressive increase in disulfide bridges.

Interactions of nuclear proteins with DNA, during sperm differentiation in the ram

Ram spermatid nuclei and caput epididymal sperm nuclei were prepared and treated with DTT under conditions avoiding proteolysis. Whole-mount preparations for the electron microscope were made in the presence or absence of the detergent Joy. The chromatin of the less mature, non-round spermatid nuclei displayed a nucleosomal organization that gradually disappeared at the time the histones leave the nuclei (elongating spermatids). Digestion with micrococcal nuclease suggests that polynucleosome arrays are scarcer and more accessible to nuclease in the elongating than in the round nuclei, with increasing amounts of DNA becoming devoid of nuleosomes. In the protamine-containing nuclei (elongated spermatids), only smooth filaments were observed, which formed thick fibers by parallel aggregation. The change from a nucleosomal organization to bundles of smooth filaments appeared to result from a complex process involving the transitory presence of conspicuous “knobby fibers” that suggest a periodicity in the organization of the spermatidal proteins along the DNA molecules. X-ray diffraction patterns obtained with protamine-containing spermatid nuclei and with sperm nuclei confirm that the DNA is arranged in smoothly bent bundles of parallel molecules. No higher-order reflections that might correspond to nucleosome structures were detected in the 30–200 Å region.

Genetically engineered resistance against grapevine chrome mosaic nepovirus.

Nepoviruses are a group of isometric plant viruses with a genome divided between two-single-stranded, positive-sense, RNA molecules. They are usually transmitted by nematodes and a number of them have significant economic impact, especially in perennial crops such as grapevine and fruit trees. Like all other picorna-like viruses, nepoviruses express their coat protein (CP) as part of a larger polyprotein which is further processed by a virus-encoded protease, a feature which poses specific problems when trying to express the viral coat protein in transgenic plants. A hybrid gene, driving the high-level expression of the CP of grapevine chrome mosaic nepovirus (GCMV) has been constructed and transferred to the genome of tobacco plants. Progeny of CP-expressing transformants show resistance against GCMV. When compared to control plants, fewer inoculated plants become infected and those that become infected accumulate reduced levels of viral RNAs. This protection was also shown to be efficient when plants are inoculated with purified viral RNA.

Isolation and characterization of the ram spermatidal nuclear proteins P1, 3 and T

Ram spermatidal proteins P1, 3 and T were isolated from non-round spermatid nuclei and characterized by amino acid analysis. Spermatidal proteins are small arginine- and cysteine-rich basic proteins. Proteins P1 and T are unusually rich in serine and the histidine content of P1 is particularly high. The NaCl molarities required to dissociate these proteins from the spermatid nuclei were determined. These proteins are present only during the reorganization of the spermatid chromatin.

Nucleotide sequence of the 3' terminal region of the genome of four Lettuce mosaic virus isolates from Greece and Yemen

SummaryLettuce mosaic virus (LMV) is an economically important Potyvirus causing a severe disease of commercial lettuce crops. Based on molecular data, three phylogenetic groups of isolates have previously been discriminated, reflecting their geographical origin (Western Europe-California, Greece, or Yemen). Sequence information for the entire coat protein domain was only available for one of the Western Europe-California phylogenetic group. We have now sequenced the 3′ terminal region of the genome LMV-Gr4, -Gr5 and -GrB, isolates which belong to the Greek phylogenetic group and of LMV-Yar, the sole known representative of the third LMV phylogenetic group. The region sequenced encodes the last 62 amino-acids of the polymerase and the entire coat protein of the four isolates, plus the 3′ non-translated region of LMV-Gr5 and -Yar. The Greek and Yemenite isolates studied are all very aggressive on lettuce, are able to overcome the resistance genes mo11 and mo12 and belong to the two phylogenetic groups which have so far been only partially characterised. As for other Potyviruses, the core and the C-terminal regions of the coat protein are highly conserved among all isolates whereas the N-terminus is more variable. No amino acid change in the coat protein or carboxy-terminal part of the polymerase could be related to the resistance-breaking properties of the isolates analysed. The sequences obtained provide the basis for the rapid typing of LMV isolates using the restriction pattern of segments of cDNA amplified by PCR.

Separation of ram spermatids by sedimentation at unit gravity.

Abstract Suspensions of 1 × 108 ram testis cells were prepared with trypsin and separated by velocity sedimentation at unit gravity in a non-linear Ficoll gradient. An improvement was made in the technique of cell suspension preparation to increase the viability of heat-sensitive germ cells. Six bands of cells numbered from I–VI were characterized by their sedimentation velocity and modal cell volume. The distribution of various classes of germ cells in these bands, and especially spermatids at different maturation stages, was determined using histological techniques and confirmed by kinetic profiles and autoradiographic analyses of 3H-thymidine incorporation. A homogenous population of round spermatids (93–96%) was obtained in the high sedimentation velocity part of band IV. Although elongated spermatid separation does not rigorously follow the maturation stage, it gives populations which can be used for the investigation of biochemical changes during spermiogenesis. Taking into account the viability and the ultrastructure of germ cells after separation, it was shown that the use of Ficoll as a gradient material instead of bovine serum albumin causes cellular damage. We successfully applied the technique of velocity sedimentation to testis cell separation in the bull, boar, billy-goat and stallion.

Evolution of Ca2+- and cAMP-dependent regulatory mechanisms during ram spermatogenesis

Calmodulin level and cAMP-dependent protein kinase activity of ram germ cells at different stages of spermatogenesis have been determined. Calmodulin levels decrease during maturation. Simultaneously, calmodulin localization changes during cell differentiation. In round, elongating, and elongated spermatids, calmodulin is closely associated with the developing acrosome; in spermatozoa, it becomes present in the postacrosome, the neck region and the tail. Protein kinase activity is relatively low in testicular cells but increases dramatically during epididymal maturation of spermatozoa. A concerted regulation by cAMP and Ca2+ of biochemical events in spermatogenic cells and spermatozoa is suggested.

An electrophoretic analysis of the basic nuclear proteins of ram spermatids

Abstract Changes in nuclear basic proteins throughout ram spermiogenesis were analysed by electrophoresis on polyacrylamide gels. Four spermatid populations were obtained by sedimentation at 1 gravity. Acid-soluble proteins were extracted from nuclei prepared with 0.05% Triton X-100. Somatic histones present in round spermatid nuclei are displaced from chromatin while nuclei elongate and condense. They are replaced by a unique basic protein, acid-soluble in the first stage of its synthesis, then acid-insoluble unless treated with 2-mercaptoethanol. Several basic proteins faster or slightly slower than F2a1 are present in nuclei involved in this process of replacement.

Isopynic separation of ram spermatids in colloidal silica gradients

Abstract By a two-step separation procedure, round and elongated spermatid populations were obtained with purities of 90–97% and an intermediate spermatid population with a purity of 85%. Cells of ram testes were first separated at unit gravity and 5 spermatid fractions were collected. They were centrifuged for 23 min at 4 000 g in linear and non-linear isotonic polymer-free colloidal silica gradients. Improvements were made in centrifuge tubes and in gradient collection for optimum results. Fractions were analysed using a phase contrast microscope for cell counting and determination of cell viability. True cell density was measured and found to increase during late spermiogenesis from 1.045 g/cm 3 for round spermatids to 1.152 g/cm 3 for testicular spermatozoa, thus reflecting an increase in the nuclear density.