1. Integration of multi-omics data and deep phenotyping provides insights into responses to single and combined abiotic stress in potatoMaja Zagorščak, Lamis Abdelhakim, Natalia Yaneth Rodriguez-Granados, Carissa Bleker, Andrej Blejec, Jan Zrimec, Špela Baebler, Anže Županič, Maruša Pompe Novak, Kristina Gruden, 2025, izvirni znanstveni članek Povzetek: Potato (Solanum tuberosum) is highly water and space efficient but susceptible to abiotic stresses such as heat, drought, and flooding, which are severely exacerbated by climate change. Our understanding of crop acclimation to abiotic stress, however, remains limited. Here, we present a comprehensive molecular and physiological high-throughput profiling of potato (Solanum tuberosum, cv. Désirée) under heat, drought, and waterlogging applied as single stresses or in combinations designed to mimic realistic future scenarios. Stress responses were monitored via daily phenotyping and multi-omics analyses of leaf samples comprising proteomics, targeted transcriptomics, metabolomics, and hormonomics at several timepoints during and after stress treatments. Additionally, critical metabolites of tuber samples were analyzed at the end of the stress period. We performed integrative multi-omics data analysis using a bioinformatic pipeline that we established based on machine learning and knowledge networks. Waterlogging produced the most immediate and dramatic effects on potato plants, interestingly activating ABA responses similar to drought stress. In addition, we observed distinct stress signatures at multiple molecular levels in response to heat or drought and to a combination of both. In response to all treatments, we found a downregulation of photosynthesis at different molecular levels, an accumulation of minor amino acids, and diverse stress-induced hormones. Our integrative multi-omics analysis provides global insights into plant stress responses, facilitating improved breeding strategies toward climate-adapted potato varieties.
Ključne besede: potato, Solanum tuberosum, abiotic stress responses, heat, drought, waterlogging, multi-omics, integrative omics, adaptomics, panomics
Objavljeno v DiRROS: 14.04.2025; Ogledov: 161; Prenosov: 127
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2. [Beta]-1,3-glucanase class III promotes spread of PVY[sup]NTN and improves in planta protein productionDavid Dobnik, Špela Baebler, Polona Kogovšek, Maruša Pompe Novak, Dejan Štebih, Gabriela Panter, Nikolaja Janež, Dany Morisset, Jana Žel, Kristina Gruden, 2013, izvirni znanstveni članek Povzetek: Glucanases are enzymes regulating the size exclusion limit and permeability of plasmodesmata and play a role in biotic stress. In plant genomes, they are encoded as relatively large gene families divided into four classes. Most studies of plant virus interactions have focused on glucanases from classes I and II. In our study, we have evaluated the role of the β-1,3-glucanase class III (Glu-III) gene in the potato–potato virus YNTN (PVYNTN) interaction and implemented the findings to plant biotechnology application. Potato cultivars Désirée and Santé, which are tolerant and extremely resistant to PVYNTN, respectively, were stably transformed with Agrobacterium tumefaciens harbouring constructs for Glu-III overexpression. Localization of Glu-III protein in patches within the cell wall was determined by tagging the Glu-III protein with green fluorescent protein. Transgenic and non-transgenic plants were challenged with PVYNTN and its multiplication and spreading was followed. Differences in viral spread were observed between transgenic lines overexpressing Glu-III and non-transgenic lines, with stronger and faster viral spread in transgenic Désirée, and some multiplication in transgenic Santé. In addition, the ability of Glu-III to improve in planta protein production after agroinfiltration was tested. The results have shown that Glu-III overexpression enables faster spreading of vectors between cells and better protein production, which could be beneficial in improving in planta protein production system using viral vectors.
Ključne besede: plant biotechnology, plant-virus interaction, potato virus Y, agroinfiltration, beta-1, 3-glucanase
Objavljeno v DiRROS: 04.03.2025; Ogledov: 268; Prenosov: 497
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3. Haplotype-resolved genome assembly of the tetraploid potato cultivar DésiréeTim Godec, Sebastian Beier, Natalia Yaneth Rodriguez-Granados, Rashmi Sasidharan, Lamis Abdelhakim, Markus Teige, Björn Usadel, Kristina Gruden, Marko Petek, 2025, drugi sestavni deli Povzetek: Cultivar Désirée is an important model for potato functional genomics studies to assist breeding strategies. Here, we present a haplotype-resolved genome assembly of Désirée, achieved by assembling PacBio HiFi reads and Hi-C scaffolding, resulting in a high-contiguity chromosome-level assembly. We implemented a comprehensive annotation pipeline incorporating gene models and functional annotations from the Solanum tuberosum Phureja DM reference genome alongside RNA-seq reads to provide high-quality gene and transcript annotations. Additionally, we provide a genome-wide DNA methylation profile using Oxford Nanopore reads, enabling insights into potato epigenetics. The assembled genome, annotations, methylation and expression data are visualised in a publicly accessible genome browser (https://desiree.nib.si), providing a valuable resource for the potato research community.
Ključne besede: cultivar Désirée, potato, functional genomics, genome assembly, annotation pipeline, DNA methylation, epigenetics
Objavljeno v DiRROS: 28.01.2025; Ogledov: 254; Prenosov: 132
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4. Field-scale UAV-based multispectral phenomics: : Leveraging machine learning, explainable AI, and hybrid feature engineering for enhancements in potato phenotypingJanez Lapajne, Andrej Vončina, Ana Vojnović, Daša Donša, Peter Dolničar, Uroš Žibrat, 2025, izvirni znanstveni članek Ključne besede: Multispectral imaging, Potato research, Machine learning, Interpretability techniques
Objavljeno v DiRROS: 10.12.2024; Ogledov: 289; Prenosov: 155
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5. Variations in the nutritional profile and colour parameters of sweet potato varieties with different flesh colours : Effects of cropping system, mulching and growing seasonLovro Sinkovič, Mohamed Neji, Nataša Kunstelj, Barbara Pipan, Vladimir Meglič, 2024, izvirni znanstveni članek Ključne besede: Sweet potato, Flesh colour, Nutritional profile, Cropping system, Genetic makeup, Linear discriminant analysis
Objavljeno v DiRROS: 19.11.2024; Ogledov: 383; Prenosov: 2648
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6. Enhancing water-deficient potato plant identification : assessing realistic performance of attention-based deep neural networks and hyperspectral imaging for agricultural applicationsJanez Lapajne, Ana Vojnović, Andrej Vončina, Uroš Žibrat, 2024, izvirni znanstveni članek Ključne besede: hyperspectral imaging, deep learning, potato plant, water-deficiency, drought stress
Objavljeno v DiRROS: 29.10.2024; Ogledov: 426; Prenosov: 466
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7. The StPti5 ethylene response factor acts as a susceptibility factorby negatively regulating the potato immune responseto pathogensAnna Coll Rius, Tjaša Lukan, Katja Stare, Maja Zagorščak, Tjaša Mahkovec Povalej, Špela Baebler, Salomé Prat, Núria Sánchez Coll, Marc Valls, Marko Petek, Kristina Gruden, 2024, izvirni znanstveni članek Povzetek: Ethylene response factors (ERFs) have been associated with biotic stress in Arabidopsis, while their function in non-model plants is still poorly understood. Here we investigated the role of potato ERF StPti5 in plant immunity.
We show that StPti5 acts as a susceptibility factor. It negatively regulates potato immunity against potato virus Y and Ralstonia solanacearum, pathogens with completely different modes of action, and thereby has a different role than its orthologue in tomato. Remarkably, StPti5 is destabilised in healthy plants via the autophagy pathway and accumulates exclusively in the nucleus upon infection. We demonstrate that StEIN3 and StEIL1 directly bind the StPti5 promoter and activate its expression, while synergistic activity of the ethylene and salicylic acid pathways is required for regulated StPti expression.
To gain further insight into the mode of StPti5 action in attenuating potato defence responses, we investigated transcriptional changes in salicylic acid deficient potato lines with silenced StPti5 expression. We show that StPti5 regulates the expression of other ERFs and downregulates the ubiquitin-proteasome pathway as well as several proteases involved in directed proteolysis.
This study adds a novel element to the complex puzzle of immune regulation, by deciphering a two-level regulation of ERF transcription factor activity in response to pathogens.
Ključne besede: ethylene response factor, immune signalling, potato virus Y, Pti5, Ralstonia solanacearum, Solanum tuberosum, susceptibility factor
Objavljeno v DiRROS: 29.08.2024; Ogledov: 555; Prenosov: 816
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8. Plant molecular responses to potato virus Y : a continuum of outcomes from sensitivity and tolerance to resistanceŠpela Baebler, Anna Coll Rius, Kristina Gruden, 2020, pregledni znanstveni članek Povzetek: Potato virus Y (PVY) is the most economically important virus affecting potato production. PVY manipulates the plant cell machinery in order to successfully complete the infecting cycle. On the other side, the plant activates a sophisticated multilayer immune defense response to combat viral infection. The balance between these mechanisms, depending on the plant genotype and environment, results in a specific outcome that can be resistance, sensitivity, or tolerance. In this review, we summarize and compare the current knowledge on molecular events, leading to different phenotypic outcomes in response to PVY and try to link them with the known molecular mechanisms.
Ključne besede: potato virus Y, Potyviridae, potato, Solanum tuberosum, Solanaceae, plant immune signaling, plant hormones, tolerance, susceptibility, resistance
Objavljeno v DiRROS: 06.08.2024; Ogledov: 748; Prenosov: 569
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9. Potato Virus Y infection hinders potato defence response and renders plants more vulnerable to Colorado potato beetle attackMarko Petek, Ana Rotter, Polona Kogovšek, Špela Baebler, Axel Mithöfer, Kristina Gruden, 2014, izvirni znanstveni članek Povzetek: In the field, plants are challenged by more than one biotic stressor at the same time. In this study, the molecular interactions between potato (Solanum tuberosum L.), Colorado potato beetle (Leptinotarsa decemlineata Say; CPB) and Potato virus YNTN (PVYNTN) were investigated through analyses of gene expression in the potato leaves and the gut of the CPB larvae, and of the release of potato volatile compounds. CPB larval growth was enhanced when reared on secondary PVYNTN-infected plants, which was linked to decreased accumulation of transcripts associated with the antinutritional properties of potato. In PVYNTN-infected plants, ethylene signalling pathway induction and induction of auxin response transcription factors were attenuated, while no differences were observed in jasmonic acid (JA) signalling pathway. Similarly to rearing on virus-infected plants, CPB larvae gained more weight when reared on plants silenced in JA receptor gene (coi1). Although herbivore-induced defence mechanism is regulated predominantly by JA, response in coi1-silenced plants only partially corresponded to the one observed in PVYNTN-infected plants, confirming the role of other plant hormones in modulating this response. The release of β-barbatene and benzyl alcohol was different in healthy and PVYNTN-infected plants before CPB larvae infestation, implicating the importance of PVYNTN infection in plant communication with its environment. This was reflected in gene expression profiles of neighbouring plants showing different degree of defence response. This study thus contributes to our understanding of plant responses in agro-ecosystems.
Ključne besede: insect midgut transcriptional response, gene expression, plant defence, volatile organic compounds, potato
Objavljeno v DiRROS: 02.08.2024; Ogledov: 676; Prenosov: 309
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10. Involvement of potato (Solanum tuberosum L.) MKK6 in response to Potato virus YAna Lazar, Anna Coll Rius, David Dobnik, Špela Baebler, Apolonija Bedina Zavec, Jana Žel, Kristina Gruden, 2014, izvirni znanstveni članek Povzetek: Mitogen-activated protein kinase (MAPK) cascades have crucial roles in the regulation of plant development and in plant responses to stress. Plant recognition of pathogen-associated molecular patterns or pathogen-derived effector proteins has been shown to trigger activation of several MAPKs. This then controls defence responses, including synthesis and/or signalling of defence hormones and activation of defence related genes. The MAPK cascade genes are highly complex and interconnected, and thus the precise signalling mechanisms in specific plant%pathogen interactions are still not known. Here we investigated the MAPK signalling network involved in immune responses of potato (Solanum tuberosum L.) to Potato virus Y, an important potato pathogen worldwide. Sequence analysis was performed to identify the complete MAPK kinase (MKK) family in potato, and to identify those regulated in the hypersensitive resistance response to Potato virus Y infection. Arabidopsis has 10 MKK family members, of which we identified five in potato and tomato (Solanum lycopersicum L.), and eight in Nicotiana benthamiana. Among these, StMKK6 is the most strongly regulated gene in response to Potato virus Y. The salicylic acid treatment revealed that StMKK6 is regulated by the hormone that is in agreement with the salicylic acid-regulated domains found in the StMKK6 promoter. The involvement of StMKK6 in potato defence response was confirmed by localisation studies, where StMKK6 accumulated strongly only in Potato-virus-Y-infected plants, and predominantly in the cell nucleus. Using a yeast two-hybrid method, we identified three StMKK6 targets downstream in the MAPK cascade: StMAPK4_2, StMAPK6 and StMAPK13. These data together provide further insight into the StMKK6 signalling module and its involvement in plant defence.
Ključne besede: plant diseases, potato, molecular biology
Objavljeno v DiRROS: 02.08.2024; Ogledov: 528; Prenosov: 379
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