Your search keyword '"Visser, Richard G.F."' showing total 11 results

1. QTL mapping of fruit quality traits in tetraploid kiwiberry (Actinidia arguta)

Author

Wang, Ran, Bourke, Peter M., Li, Sikai, Lin, Miaomiao, Sun, Leiming, Gu, Hong, Li, Yukuo, Visser, Richard G.F., Qi, Xiujuan, Maliepaard, Chris, and Fang, Jinbao

Published

2024

2. Transcriptomic analyses to summarize gene expression patterns that occur during leaf initiation of Chinese cabbage

Author

Sun, Xiao Xue, Liu, Zihan, Liu, Rui, Bucher, Johan, Zhao, Jianjun, Visser, Richard G.F., Bonnema, Guusje, Sun, Xiao Xue, Liu, Zihan, Liu, Rui, Bucher, Johan, Zhao, Jianjun, Visser, Richard G.F., and Bonnema, Guusje

Abstract

In Chinese cabbage, rosette leaves expose their adaxial side to the light converting light energy into chemical energy, acting as a source for the growth of the leafy head. In the leafy head, the outer heading leaves expose their abaxial side to the light while the inner leaves are shielded from the light and have become a sink organ of the growing Chinese cabbage plant. Interestingly, variation in several ad/abaxial polarity genes is associated with the typical leafy head morphotype. The initiation of leaf primordia and the establishment of leaf ad/abaxial polarity are essential steps in the initiation of marginal meristem activity leading to leaf formation. Understanding the molecular genetic mechanisms of leaf primordia formation, polar differentiation, and leaf expansion is thus relevant to understand leafy head formation. As Brassica’s are mesa-hexaploids, many genes have multiple paralogues, complicating analysis of the genetic regulation of leaf development. In this study, we used laser dissection of Chinese cabbage leaf primordia and the shoot apical meristem (SAM) to compare gene expression profiles between both adaxial and abaxial sides and the SAM aiming to capture transcriptome changes underlying leaf primordia development. We highlight genes with roles in hormone pathways and transcription factors. We also assessed gene expression gradients along expanded leaf blades from the same plants to analyze regulatory links between SAM, leaf primordia and the expanding rosette leaf. The catalogue of differentially expressed genes provides insights in gene expression patterns involved in leaf development and form a starting point to unravel leafy head formation.

Published

2024

3. Identification, Elucidation and Deployment of a Cytoplasmic Male Sterility System for Hybrid Potato

Author

Eggers, Ernst-Jan, Su, Ying, van der Poel, Esmee, Flipsen, Martijn, de Vries, Michiel E., Bachem, Christian W.B., Visser, Richard G.F., Lindhout, Pim, Eggers, Ernst-Jan, Su, Ying, van der Poel, Esmee, Flipsen, Martijn, de Vries, Michiel E., Bachem, Christian W.B., Visser, Richard G.F., and Lindhout, Pim

Abstract

Recent advances in diploid F1 hybrid potato breeding rely on the production of inbred lines using the S-locus inhibitor (Sli) gene. As a result of this method, female parent lines are self-fertile and require emasculation before hybrid seed production. The resulting F1 hybrids are self-fertile as well and produce many undesirable berries in the field. Utilization of cytoplasmic male sterility would eliminate the need for emasculation, resulting in more efficient hybrid seed production and male sterile F1 hybrids. We observed plants that completely lacked anthers in an F2 population derived from an interspecific cross between diploid S. tuberosum and S. microdontum. We studied the antherless trait to determine its suitability for use in hybrid potato breeding. We mapped the causal locus to the short arm of Chromosome 6, developed KASP markers for the antherless (al) locus and introduced it into lines with T and A cytoplasm. We found that antherless type male sterility is not expressed in T and A cytoplasm, proving that it is a form of CMS. We hybridized male sterile al/al plants with P cytoplasm with pollen from al/al plants with T and A cytoplasm and we show that the resulting hybrids set significantly fewer berries in the field. Here, we show that the antherless CMS system can be readily deployed in diploid F1 hybrid potato breeding to improve hybridization efficiency and reduce berry set in the field.

Published

2024

4. High-Density Linkage Map Constructed from a Skim Sequenced Diploid Potato Population Reveals Transmission Distortion and QTLs for Tuber Yield and Pollen Shed

Author

Clot, Corentin R., Wang, Xulan, Koopman, Joey, Navarro, Alejandro Thérèse, Bucher, Johan, Visser, Richard G.F., Finkers, Richard, van Eck, Herman J., Clot, Corentin R., Wang, Xulan, Koopman, Joey, Navarro, Alejandro Thérèse, Bucher, Johan, Visser, Richard G.F., Finkers, Richard, and van Eck, Herman J.

Abstract

The reinvention of potato, from a tetraploid clonal crop into a diploid seed-based hybrid crop, requires insight in the mutational load, recombination landscape, and the genetic basis of fertility. Genomics-based breeding and QTL discovery rely on efficient genotyping strategies such as skim sequencing, to gather genotypic information. The application of skim sequencing to full-sib population of non-inbred parents remains challenging. Here, we report on an R implementation of the OutcrossSeq pipeline for diploids. We applied this pipeline to a large diploid skim sequenced potato population. We used the resulting bin-markers for the construction of high-density parent specific linkage maps, highlighting variation in parental recombination rate and structural variations. We subsequently explored transmission ratio distortion and non-independent assortment of alleles, indicative of large-effect deleterious mutations. Finally, we identified QTLs for seedling tuber yield in pots and pollen shed. This study showcases the range of genetic analyses, from marker inference, identification of transmission ratio distortion, and linkage map construction to QTL mapping, resulting in new insights that contribute to breeding diploid potato.

Published

2024

5. Aging later but faster: how StCDF1 regulates senescence in Solanum tuberosum

Author

Shi, Li, de Biolley, Laura, Shaikh, Maroof Ahmed, de Vries, Michiel E., Mittmann, Sybille Ursula, Visser, Richard G.F., Prat, Salome, Bachem, Christian W.B., Shi, Li, de Biolley, Laura, Shaikh, Maroof Ahmed, de Vries, Michiel E., Mittmann, Sybille Ursula, Visser, Richard G.F., Prat, Salome, and Bachem, Christian W.B.

Abstract

In potato, maturity is assessed by leaf senescence, which, in turn, affects yield and tuber quality traits. Previously, we showed that the CYCLING DOF FACTOR1 (StCDF1) locus controls leaf maturity in addition to the timing of tuberization. Here, we provide evidence that StCDF1 controls senescence onset separately from senescence progression and the total life cycle duration. We used molecular–biological approaches (days after planting (DAP)-seq) to identify a direct downstream target of StCDF1, named ORESARA1 (StORE1S02), which is a NAC transcription factor acting as a positive senescence regulator. By overexpressing StORE1S02 in the long life cycle genotype, early onset of senescence was shown, but the total life cycle remained long. At the same time, StORE1S02 knockdown lines have a delayed senescence onset. Furthermore, we show that StORE1 proteins play an indirect role in sugar transport from source to sink by regulating expression of SWEET sugar efflux transporters during leaf senescence. This study clarifies the important link between tuber formation and senescence and provides insight into the molecular regulatory network of potato leaf senescence onset. We propose a complex role of StCDF1 in the regulation of potato plant senescence.

Published

2024

6. Multienvironment genomic prediction in tetraploid potato

Author

Wilson, Stefan, Zheng, Chaozhi, Maliepaard, Chris, Mulder, Han, Visser, Richard G.F., van Eeuwijk, Fred, Wilson, Stefan, Zheng, Chaozhi, Maliepaard, Chris, Mulder, Han, Visser, Richard G.F., and van Eeuwijk, Fred

Abstract

Multienvironment genomic prediction was applied to tetraploid potato using 147 potato varieties, tested for 2 years, in 3 locations representative of 3 distinct regions in Europe. Different prediction scenarios were investigated to help breeders predict genotypic performance in the regions from one year to the next, for genotypes that were tested this year (scenario 1), as well as new genotypes (scenario 3). In scenario 2, we predicted new genotypes for any one of the 6 trials, using all the information that is available. The choice of prediction model required assessment of the variance–covariance matrix in a mixed model that takes into account heterogeneity of genetic variances and correlations. This was done for each analyzed trait (tuber weight, tuber length, and dry matter) where examples of both limited and higher degrees of heterogeneity was observed. This explains why dry matter did not need complex multienvironment modeling to combine environments and increase prediction ability, while prediction in tuber weight, improved only when models were flexible enough to capture the heterogeneous variances and covariances between environments. We also found that the prediction abilities in a target trial condition decreased, if trials with a low genetic correlation to the target were included when training the model. Genomic prediction in tetraploid potato can work once there is clarity about the prediction scenario, a suitable training set is created, and a multienvironment prediction model is chosen based on the patterns of G×E indicated by the genetic variances and covariances.

Published

2024

7. Cabbage (Brassica oleracea var. capitata) Development in Time : How Differential Parenchyma Tissue Growth Affects Leafy Head Formation

Author

Liu, Zihan, Alemán-Báez, Jorge, Visser, Richard G.F., Bonnema, Guusje, Liu, Zihan, Alemán-Báez, Jorge, Visser, Richard G.F., and Bonnema, Guusje

Abstract

This study aims to categorize the morphological changes during cabbage (B. oleracea ssp. capitata) development, seedling, rosette, folding, and heading, and to elucidate the cellular mechanisms of the leaf curvature, essential for the formation of the leafy head. We followed the growth of two cabbage cultivars with distinct head shapes (round and pointed) and one non-heading collard cultivar; we phenotyped the size and volume of the whole plant as well as the size, shape, and curvature of the leaves during growth. By integrating these phenotypic data, we determined the four vegetative stages for both cabbages. The histological phenotypes of microtome sections from five distinct leaf positions of the rosette, folding, and heading leaves at two timepoints during leaf growth were quantified and revealed variations in cellular parameters among leaf types, between leaf positions, and between the adaxial and abaxial sides. We identified two synergistic cellular mechanisms contributing to the curvature of heading leaves: differential growth across the leaf blade, with increased growth at the leaf’s center relative to the margins; and the increased expansion of the spongy parenchyma layer compared to the palisade parenchyma layer, resulting in the direction of the curvature, which is inwards. These two processes together contribute to the typical leafy heads of cabbages.

Published

2024

8. Identification of two mutant JASON-RELATED genes associated with unreduced pollen production in potato

Author

Clot, Corentin R., Vexler, Lea, de La O Leyva-Perez, Maria, Bourke, Peter M., Engelen, Christel J.M., Hutten, Ronald C.B., van de Belt, José, Wijnker, Erik, Milbourne, Dan, Visser, Richard G.F., Juranić, Martina, van Eck, Herman J., Clot, Corentin R., Vexler, Lea, de La O Leyva-Perez, Maria, Bourke, Peter M., Engelen, Christel J.M., Hutten, Ronald C.B., van de Belt, José, Wijnker, Erik, Milbourne, Dan, Visser, Richard G.F., Juranić, Martina, and van Eck, Herman J.

Abstract

Key message: Multiple QTLs control unreduced pollen production in potato. Two major-effect QTLs co-locate with mutant alleles of genes with homology to AtJAS, a known regulator of meiotic spindle orientation. Abstract: In diploid potato the production of unreduced gametes with a diploid (2n) rather than a haploid (n) number of chromosomes has been widely reported. Besides their evolutionary important role in sexual polyploidisation, unreduced gametes also have a practical value for potato breeding as a bridge between diploid and tetraploid germplasm. Although early articles argued for a monogenic recessive inheritance, the genetic basis of unreduced pollen production in potato has remained elusive. Here, three diploid full-sib populations were genotyped with an amplicon sequencing approach and phenotyped for unreduced pollen production across two growing seasons. We identified two minor-effect and three major-effect QTLs regulating this trait. The two QTLs with the largest effect displayed a recessive inheritance and an additive interaction. Both QTLs co-localised with genes encoding for putative AtJAS homologs, a key regulator of meiosis II spindle orientation in Arabidopsis thaliana. The function of these candidate genes is consistent with the cytological phenotype of mis-oriented metaphase II plates observed in the parental clones. The alleles associated with elevated levels of unreduced pollen showed deleterious mutation events: an exonic transposon insert causing a premature stop, and an amino acid change within a highly conserved domain. Taken together, our findings shed light on the natural variation underlying unreduced pollen production in potato and will facilitate interploidy breeding by enabling marker-assisted selection for this trait.

Published

2024

9. Allelic variation in the autotetraploid potato : genes involved in starch and steroidal glycoalkaloid metabolism as a case study

Author

Li, Hongbo, Brouwer, Matthijs, Pup, Elena Del, van Lieshout, Natascha, Finkers, Richard, Bachem, Christian W.B., Visser, Richard G.F., Li, Hongbo, Brouwer, Matthijs, Pup, Elena Del, van Lieshout, Natascha, Finkers, Richard, Bachem, Christian W.B., and Visser, Richard G.F.

Abstract

Background: Tuber starch and steroidal glycoalkaloid (SGA)-related traits have been consistently prioritized in potato breeding, while allelic variation pattern of genes that underlie these traits is less explored. Results: Here, we focused on the genes involved in two important metabolic pathways in the potato: starch metabolism and SGA biosynthesis. We identified 119 genes consisting of 81 involved in starch metabolism and 38 in the biosynthesis of steroidal glycoalkaloids, and discovered 96,166 allelic variants among 2,169 gene haplotypes in six autotetraploid potato genomes. Comparative analyses revealed an uneven distribution of allelic variants among gene haplotypes and that the vast majority of deleterious mutations in these genes are retained in heterozygous state in the autotetraploid potato genomes. Leveraging full-length cDNA sequencing data, we find that approximately 70% of haplotypes of the 119 genes are transcribable. Population genetic analyses identify starch and SGA biosynthetic genes that are potentially conserved or diverged between potato varieties with varying starch or SGA content. Conclusions: These results deepen the understanding of haplotypic diversity within functionally important genes in autotetraploid genomes and may facilitate functional characterization of genes or haplotypes contributing to traits related to starch and SGA in potato.

Published

2024

10. Key determinants of CRISPR/Cas9 induced inversions in tomato

Author

Grubben, Jillis, primary, Bijsterbosch, Gerard, additional, Visser, Richard G.F., additional, and Schouten, Henk J., additional

Published

2024

11. More than flowering: CONSTANS plays multifaceted roles in plant development and stress responses.

Author

Yu B, Hu Y, and Hou X

Abstract

Plants have evolved a remarkable ability to sense and respond to changes in photoperiod, allowing adjustments to their growth and development based on seasonal and environmental cues. The floral transition is a pivotal stage in plant growth and development, signifying a shift from vegetative to reproductive growth. CONSTANS (CO), a central photoperiodic response factor conserved in various plants, mediates day-length signals to control the floral transition, although its mechanisms of action vary among plants with different day-length requirements. In addition, recent studies have uncovered roles for CO in organ development and stress responses. These pleiotropic roles in model plants and crops make CO a potentially fruitful target for molecular breeding aimed at modifying crop agronomic traits. This review systematically traces research on CO, from its discovery and functional studies to the exploration of its regulatory mechanisms and newly discovered functions, providing important insight into the roles of CO and laying a foundation for future research., (© 2024 The Author(s). Journal of Integrative Plant Biology published by John Wiley & Sons Australia, Ltd on behalf of Institute of Botany, Chinese Academy of Sciences.)

Published

2024