Noemi Čeřovská

Photosynthesis and Activity of Phosphoenolpyruvate carboxylase in Nicotiana tabacum L. Leaves Infected by Potato virus A and Potato virus Y

The influence of viral infection caused by two different potyviruses, Potato virus Y (PVY) and Potato virus A (PVA) on plant metabolism and photosynthetic apparatus of Nicotiana tabacum L. cv. Samsun and cv. Petit Havana SR1 was studied. The main stress was focused on the activities of phosphoenolpyruvate carboxylase (PEPC), NADP-malic enzyme (NADP-ME), and pyruvate phosphate dikinase (PPDK). The analysis of the presence of viral proteins, enzyme activities, and different photosynthetic parameters showed the time dependent progress of viral infection and NADP-ME and PEPC activities. PVY caused significant response, while PVA affected both tobacco cultivars only slightly. Viral infection, namely PVY, affected more negatively photosynthetic apparatus of cv. Petit Havana SR1 than cv. Samsun.

Chlorophyll a fluorescence as a tool for a study of the Potato virus Y effects on photosynthesis of nontransgenic and transgenic Pssu-ipt tobacco

The effect of Potato virus YNTN (PVY) infection upon photosynthesis was analysed in transgenic Pssu-ipt tobacco overproducing endogenous cytokinins in comparison with control, nontransgenic Nicotiana tabacum plants. The course of the infection from the early to the late stage was monitored by measuring of photosynthetic gas exchange and fast chlorophyll (Chl) a fluorescence induction kinetics. Leaf photosynthesis was also analysed using Chl fluorescence imaging (Chl-FI). From the different fluorescence parameters obtained using Chl-FI, the nonphotochemical quenching (NPQ) proved to be the most useful parameter to assess the effect of PVY infection. On the other hand, Chl-FI was found to be inapplicable for any presymptomatic detection of PVY infection in tobacco. The lower accumulation of the virus was found in transgenic plants and corresponded also with the presence of visible symptoms of PVY infection. The net photosynthetic rate (PN), transpiration rate (E), and stomatal conductance (gs) significantly decreased with the progress of the infection in both control plant types and transgenic rooted plants, while transgenic grafts were much less affected. The analysis of the Chl fluorescence transient revealed higher number of silent dissipative reaction centres, higher nonphotochemical dissipation, and significantly lower performance index, PI(abs), in the healthy transgenic grafts. Chl-FI also confirmed significantly higher NPQ in transgenic grafts.

Production of Polyclonal Antibodies to a Recombinant Coat Protein of Potato Virus Y

The gene encoding the coat protein (CP) of a potato virus Y (PVY) was cloned into expression vector pMPM-A4Ω. PVY CP was expressed in Escherichia coli and the purified recombinant protein was used for raising rabbit polyclonal antibodies. The sera and antibodies were tested for the detection of PVY in the laboratory host Nicotiana tabacum cv. Petit Havana SR1 and in various cultivars of the natural host Solanum tuberosum by ELISA as well as by Western blots. The antibodies can be used for the detection of the whole strain spectrum of PVY by indirect plate trapped antigen ELISA and Western blot, but not by double antigen sandwich ELISA.

Regulation of phosphoenolpyruvate carboxylase in PVY(NTN)-infected tobacco plants.

Abstract The effect of viral infection on the regulation of phosphoenolpyruvate carboxylase (PEPC, EC 4.1.1.31) in Nicotiana tabacum L. leaves was studied. PEPC activity was 3 times higher in infected plant leaves compared to healthy plants. Activity of plant PEPC can be regulated, e.g., by de novo synthesis or reversible phosphorylation. The reason for the increase of PEPC activity as a consequence of PVYNTN infection was studied. The amount of PEPC determined by Western blot analysis or by relative estimation of PEPC mRNA by real-time PCR did not differ in control and PVYNTN-infected plants. Changes in post-translational modification of PEPC by phosphorylation were evaluated by comparing activity of the native and the dephosphorylated enzyme. The infected plants were characterized by a higher decrease of the enzyme activity after its dephosphorylation, which indicated a higher phosphorylation level. Immunochemical detection of phosphoproteins by Western blot analysis showed a more intensive band corresponding to PEPC from the infected material. This strengthens the hypothesis of an infection-related phosphorylation, which could be part of the plants response to pathogen attack. The physiological implications of the increase in PEPC activity during PVYNTN infection are discussed.

Extended Sequence Analysis of Three Danish Potato Mop-Top Virus (PMTV) Isolates

The entire nucleotide sequence for the coding regions of a Danish PMTV isolate 54-15 was determined and compared to other known and sequenced isolates of PMTV. Many nucleotide and amino acid changes were found in parts of RNA coding for the triple gene block (TGB) proteins and in the part of the RNA coding for the read-through region of the coat protein (CP). These regions for two other isolates, the mild one 54-10 and the severe one 54-19, were sequenced. Only two amino acid changes were found to correlate with the subdivision of isolates according to symptom development into mild and severe subgroups. In addition, the phylogenetic tree was obtained suggesting the closest relationship between isolates 54-15 and 54-10. Although the sequence comparisons indicate a high genetic stability of PMTV populations, a surprising change was found in the newly sequenced isolates – the replacement of the AUG start codon of the fourth gene of the TGB encoding RNA, coding for a cystein-rich protein, by the less efficient GUG start codon.

Sequence Analysis of the Czech Potato Mop-Top Virus (PMTV) Isolate Korneta-Nemilkov

The nucleotide sequence was determined for Czech potato mop-top virus (PMTV) isolate Korneta-Nemilkov, found in the potato field situated in South Bohemia. The nucleotide and amino acid sequences were compared with other PMTV isolates available in databases. The sequence identity was always >99 % when Czech isolate RNA 2 and RNA 3 sequences were compared with each of the 3 Danish isolates and with Sw isolate, and slightly lower when compared to Scottish isolates. Similarity of deduced proteins was 100 % for 5 out of 6 proteins used in comparison of Czech isolate with Danish isolate 54-15. The only difference between 2 isolates was found in coat protein (CP) gene. Interestingly, the CP of the Czech isolate seems to be 100 % identical to the one of Sw, while many changes were found in the region encoding TGBp2, TGBp3 and cysteine-rich protein (CRP) for these 2 isolates. The lowest similarity scores were found when comparing the Czech isolate CRP with CRP of Scottish isolates.

Effect of Potato Virus Y on the NADP-Malic Enzyme from Nicotiana tabacum L.: mRNA, Expressed Protein and Activity

The effect of biotic stress induced by viral infection (Potato virus Y, strain NTN and O) on NADP-malic enzyme (EC 1.1.1.40) in tobacco plants (Nicotiana tabacum L., cv. Petit Havana, SR1) was tested at the transcriptional, translational and activity level. The increase of enzyme activity in infected leaves was correlated with the increased amount of expressed protein and with mRNA of cytosolic NADP-ME isoform. Transcription of the chloroplastic enzyme was not influenced by viral infection. The increase of the enzyme activity was also detected in stems and roots of infected plants. The effect of viral infection induced by Potato virus Y, NTN strain, causing more severe symptoms, was compared with the effect induced by milder strain PVYO. The observed increase in NADP-malic enzyme activity in all parts of the studied plants was higher in the case of PVYNTN strain than in the case of strain PVYO. The relevance of NADP-malic enzyme in plants under stress conditions was discussed.

Transient expression of heterologous model gene in plants using Potato virusX-based vector

To optimize the efficiency of expression of foreign proteins using Potato virus X (PVX) -- based vector, the gene for the coat protein (CP) of other virus (Potato virusA, PVA) was cloned into the vector, propagated in E. coli and subsequently inoculated or agroinfected into the host plants. Host range studies showed that the best host plant is N. benthamiana. By means of RT PCR the presence and the stability of the construct were tested. Both ELISA and Western blot analysis were applicable for expressed protein detection. Expression level of PVA CP achieved approximately 5--10 per mille of total soluble proteins. The results demonstrated that agroinfection is the most suitable method for the propagation of our model gene using PVX--based vectors.

The Influence of Potato Virus Y Infection on the Ultrastructure of Pssu‐ipt Transgenic Tobacco1

We studied the effect of Potato virus YNTN (PVY) on the cell ultrastructure of control (rooted control plants [C] and control plants grafted onto control rootstock [C/C]) and transgenic Pssu‐ipt plants overproducing cytokinins (CK; rooted [T] or grafted [T/C]). The PVY infection caused visible symptoms, i.e., reduction of leaf surface and plant growth, acceleration of leaf senescence, veinal necrosis, and leaf distortion in all infected C plants; in T and C/C plants, plant age affected whether symptoms of infection occurred. Even though DAS‐ELISA proved the presence of virus coat protein in all studied plants, the symptoms of infection were never observed in T/C plants. Relative content of virus proteins in cells correlated with the stage of symptom development in infected plants. A massive accumulation of virus proteins was found in the cytoplasm of infected plants, and it was proved by immunocytochemical methods. The most prominent effect of viral infection was a decrease of volume density of starch, an increase of volume density of plastoglobuli in chloroplasts, and more abundant cores inside peroxisomes in C plants. Although virus particles were not found inside chloroplasts, they formed large aggregates adjacent to cell organelles—nuclei, chloroplasts, mitochondria, and peroxisomes. Both transgenic plants and C/C plants were less sensitive to viral infection. We concluded that not only CK overproduction but also the cultivation method of plants may influence the sensitivity of plants to biotic stress.

Tobacco susceptibility to Potato virus YNTN infection is affected by grafting and endogenous cytokinin content

Faster or stronger response to pathogen occurs if plants undergo prior priming. Cytokinins seem to be also involved in plant priming and in response to pathogens. Susceptibility to Potato virus Y(NTN) (PVY(NTN)) was studied in transgenic cytokinin overproducing (Pssu-ipt) tobacco and compared with nontransgenic plants. Since cytokinin overproduction inhibits development of plant roots and grafting overcomes this limitation, both types were grown as rooted and/or grafted plants to check also the effect of grafting. Control rooted tobacco (C), the most susceptible to PVY(NTN), showed always symptoms during the infection together with the rising virus content and a systemic response, such as accumulation of H2O2, salicylic acid (SA) and other phenolic acids, and stress-induced enzyme activities. In transgenic and grafted plants, the response to PVY(NTN) was dependent on protective mechanisms activated prior to the inoculation. In Pssu-ipt tobacco, cytokinin active forms and SA contents exceeded manifold their content in C. Grafting promoted the accumulation of phenolics, but SA, and stimulated peroxidase activities. Thus, the pre-infection barrier established in both transgenic and grafted plants helped to suppress partly the virus multiplication and resulted in milder symptom development. However, only the synergic effect of both grafting and the high cytokinins led to PVY(NTN) tolerance in transgenic grafts. Possible mechanisms were discussed.