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1.
Biochimie ; 219: 1-11, 2024 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-37562705

RESUMO

Potato virus Y (PVY) is one of the most dangerous agricultural pathogens that causes substantial harm to vegetative propagated crops, such as potatoes (Solanum tuberosum L.). A necessary condition for PVY infection is an interaction between the plant cap-binding translation initiation factors eIF4E and a viral protein VPg, which mimics the cap-structure. In this study, we identified the point mutations in potato eIF4E1 and eIF4E2 that disrupt VPg binding while preserving the functional activity. For the structural interpretation of the obtained results, molecular models of all the studied forms of eIF4E1 and eIF4E2 were constructed and analyzed via molecular dynamics. The results of molecular dynamics simulations corresponds to the biochemical results and suggests that the ß1ß2 loop plays a key role in the stabilization of both eIF4E-cap and eIF4E-VPg complexes.


Assuntos
Potyvirus , Solanum tuberosum , Solanum , Solanum/metabolismo , Solanum tuberosum/genética , Potyvirus/genética , Potyvirus/metabolismo , Proteínas Virais/genética , Proteínas Virais/metabolismo , Doenças das Plantas/genética
2.
Planta ; 256(6): 116, 2022 Nov 14.
Artigo em Inglês | MEDLINE | ID: mdl-36374358

RESUMO

MAIN CONCLUSION: StLFY-knockout potato plants were developed using CRISPR/Cas9 system. Inflorescences of edited plants transited to flowering, but inflorescence structures lacked flowers and were indeterminate, producing multiple shoot meristems. The tetraploid potato (Solanum tuberosum L.) is an important agricultural crop worldwide. In this study, we used CRISPR/Cas9 to inactivate the potato homolog (StLFY) of the LEAFY gene-a key regulator of the transition to flowering and floral meristem identity-in a tetraploid potato cultivar. We achieved high rates of all-allelic knockouts. Frameshift indels led to phenotypic alterations, including indeterminate inflorescence development and the replacement of flowers with the leafy-like structures.


Assuntos
Solanum tuberosum , Solanum tuberosum/genética , Tetraploidia , Meristema , Inflorescência , Flores
3.
Biochemistry (Mosc) ; 86(9): 1128-1138, 2021 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-34565316

RESUMO

Potato virus Y (PVY) is one of the most common and harmful plant viruses. Translation of viral RNA starts with the interaction between the plant cap-binding translation initiation factors eIF4E and viral genome-linked protein (VPg) covalently attached to the viral RNA. Disruption of this interaction is one of the natural mechanisms of plant resistance to PVY. The multigene eIF4E family in the potato (Solanum tuberosum L.) genome contains genes for the translation initiation factors eIF4E1, eIF4E2, and eIF(iso)4E. However, which of these factors can be recruited by the PVY, as well as the mechanism of this interaction, remain obscure. Here, we showed that the most common VPg variant from the PVY strain NTN interacts with eIF4E1 and eIF4E2, but not with eIF(iso)4E. Based on the VPg, eIF4E1, and eIF4E2 models and data on the natural polymorphism of VPg amino acid sequence, we suggested that the key role in the recognition of potato cap-binding factors belongs to the R104 residue of VPg. To verify this hypothesis, we created VPg mutants with substitutions at position 104 and examined their ability to interact with potato eIF4E factors. The obtained data were used to build the theoretical model of the VPg-eIF4E2 complex that differs significantly from the earlier models of VPg complexes with eIF4E proteins, but is in a good agreement with the current biochemical data.


Assuntos
Fator de Iniciação 4E em Eucariotos/metabolismo , Proteínas de Plantas/metabolismo , Potyvirus/metabolismo , Proteínas Virais/metabolismo , Sítios de Ligação , Fator de Iniciação 4E em Eucariotos/química , Ligação de Hidrogênio , Simulação de Dinâmica Molecular , Mutagênese Sítio-Dirigida , Proteínas de Plantas/química , Ligação Proteica , Isoformas de Proteínas/química , Isoformas de Proteínas/metabolismo , Estrutura Terciária de Proteína , Solanum tuberosum/metabolismo , Técnicas do Sistema de Duplo-Híbrido , Proteínas Virais/química , Proteínas Virais/genética
4.
BMC Biotechnol ; 16(1): 43, 2016 05 18.
Artigo em Inglês | MEDLINE | ID: mdl-27189173

RESUMO

BACKGROUND: In a previous study we found that in chickweed the expression level of the pro-SmAMP2 gene was comparable or even higher to that of the ß-actin gene. This high level of the gene expression has attracted our attention as an opportunity for the identification of novel strong promoters of plant origin, which could find its application in plant biotechnology. Therefore, in the present study we focused on the nucleotide sequence identification and the functional characteristics of the pro-SmAMP2 promoter in transgenic plants. RESULTS: In chickweed (Stellaria media), a 2120 bp promoter region of the pro-SmAMP2 gene encoding antifungal peptides was sequenced. Six 5'-deletion variants -2120, -1504, -1149, -822, -455, and -290 bp of pro-SmAMP2 gene promoter were fused with the coding region of the reporter gene gusA in the plant expression vector pCambia1381Z. Independent transgenic plants of tobacco Nicotiana tabacum were obtained with each genetic structure. GUS protein activity assay in extracts from transgenic plants showed that all deletion variants of the promoter, except -290 bp, expressed the gusA gene. In most transgenic plants, the GUS activity level was comparable or higher than in plants with the viral promoter CaMV 35S. GUS activity remains high in progenies and its level correlates positively with the amount of gusA gene mRNA in T3 homozygous plants. The activity of the рro-SmAMP2 promoter was detected in all organs of the transgenic plants studied, during meiosis and in pollen as well. CONCLUSION: Our results show that the рro-SmAMP2 promoter can be used for target genes expression control in transgenic plants.


Assuntos
Peptídeos Catiônicos Antimicrobianos/genética , Regulação da Expressão Gênica de Plantas/genética , Proteínas de Plantas/genética , Plantas Geneticamente Modificadas/genética , Regiões Promotoras Genéticas/genética , Stellaria/genética , Sequência de Bases , Dados de Sequência Molecular
5.
Transgenic Res ; 21(2): 313-25, 2012 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-21706181

RESUMO

Two novel antifungal hevein-like peptides, SmAMP1.1a and SmAMP2.2a, were previously isolated from seeds of Stellaria media. It has been established that these peptides accumulate in this weed as a result of proteolysis of two propeptides, pro-SmAMP1 and pro-SmAMP2. The primary structure of these propeptides is unique; in addition to having a signal peptide and negatively charged C-terminus, each of these structures consists of two hevein-like peptides of different length separated by a space rather than a single peptide. In this work, we demonstrated that the expression of the pro-SmAMP1 and pro-SmAMP2 genes was tissue-specific and increased substantially under exposure to fungal infection. To elucidate whether S. media has any advantages in defending against phytopathogens due to its unusual structure of pro-SmAMP1 and pro-SmAMP2, on the basis of the pro-SmAMP1 gene, we created three genetic constructs. Arabidopsis and tobacco plants were subsequently transformed with these constructs. Transgenic plants bearing the full-length pro-SmAMP1 gene exhibited the best resistance to the phytopathogens Bipolaris sorokiniana and Thielaviopsis basicola. The resistance of S. media plants to phytopathogenic fungi was likely due to the fungal-inducible expression of pro-SmAMP1 and pro-SmAMP2 genes, and due to the specific features of the primary structure of the corresponding propeptides. As a result of the processing of these propeptides, two different antimicrobial peptides were released simultaneously. Based on our results, we conclude that the genes for antimicrobial peptides from S. media may be promising genetic tools for the improvement of plant resistance to fungal diseases.


Assuntos
Peptídeos Catiônicos Antimicrobianos/imunologia , Arabidopsis/imunologia , Ascomicetos/patogenicidade , Resistência à Doença , Nicotiana/imunologia , Lectinas de Plantas/imunologia , Stellaria/genética , Agrobacterium/genética , Agrobacterium/metabolismo , Peptídeos Catiônicos Antimicrobianos/genética , Arabidopsis/genética , Arabidopsis/microbiologia , Regulação da Expressão Gênica de Plantas , Genes de Plantas , Vetores Genéticos/genética , Vetores Genéticos/metabolismo , Doenças das Plantas/imunologia , Doenças das Plantas/microbiologia , Lectinas de Plantas/genética , Proteínas de Plantas/genética , Proteínas de Plantas/imunologia , Proteínas de Plantas/metabolismo , Plantas Geneticamente Modificadas/genética , Plantas Geneticamente Modificadas/imunologia , Plantas Geneticamente Modificadas/microbiologia , Nicotiana/genética , Nicotiana/microbiologia , Transcrição Gênica , Transformação Genética , Transgenes
6.
Plant Signal Behav ; 4(11): 1059-62, 2009 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-19829064

RESUMO

Shoots of Thellungiella derived by micropropagation were used to estimate the plants' salt tolerance and ability to regulate Na+ uptake. Two species with differing salt tolerances were studied: Thellungiella salsuginea (halophilla), which is less tolerant, and Thellungiella botschantzevii, which is more tolerant. Although the shoots of neither ecotype survived at 700 mM NaCl or 200 mM Na2SO4, micropropagated shoots of T. botschantzevii were more tolerant to Na2SO4 (10-100 mM) and NaCl (100-300 mM). In the absence of roots, Na2SO4 salinity reduced shoot growth more dramatically than NaCl salinity. Plantlets of both species were able to adapt to salt stress even when they did not form roots. First, there was no significant correlation between Na+ accumulation in shoots and Na+ concentration in the growth media. Second, K+ concentrations in the shoots exposed to different salt concentrations were maintained at equivalent levels to control plants grown in medium without NaCl or Na2SO4. These results suggest that isolated shoots of Thellungiella possess their own mechanisms for enabling salt tolerance, which contribute to salt tolerance in intact plants.


Assuntos
Brassicaceae/metabolismo , Raízes de Plantas/metabolismo , Brotos de Planta/crescimento & desenvolvimento , Potássio/metabolismo , Tolerância ao Sal , Sódio/metabolismo , Estresse Fisiológico , Brassicaceae/crescimento & desenvolvimento , Brotos de Planta/metabolismo , Salinidade , Cloreto de Sódio/metabolismo , Sulfatos/metabolismo
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