Your search keyword '"Holterman, Martijn"' showing total 28 results

1. A Worm’s World : Ecological Flexibility Pays Off for Free-Living Nematodes in Sediments and Soils

Author

SCHRATZBERGER, MICHAELA, HOLTERMAN, MARTIJN, VAN OEVELEN, DICK, and HELDER, JOHANNES

Published

2019

2. The genome and lifestage-specific transcriptomes of a plant-parasitic nematode and its host reveal susceptibility genes involved in trans-kingdom synthesis of vitamin B5

Author

Siddique, Shahid, Radakovic, Zoran S., Hiltl, Clarissa, Pellegrin, Clement, Baum, Thomas J., Beasley, Helen, Bent, Andrew F., Chitambo, Oliver, Chopra, Divykriti, Danchin, Etienne G. J., Grenier, Eric, Habash, Samer S., Hasan, M. Shamim, Helder, Johannes, Hewezi, Tarek, Holbein, Julia, Holterman, Martijn, Janakowski, Sławomir, Koutsovoulos, Georgios D., Kranse, Olaf P., Lozano-Torres, Jose L., Maier, Tom R., Masonbrink, Rick E., Mendy, Badou, Riemer, Esther, Sobczak, Mirosław, Sonawala, Unnati, Sterken, Mark G., Thorpe, Peter, van Steenbrugge, Joris J. M., Zahid, Nageena, Grundler, Florian, and Eves-van den Akker, Sebastian

Published

2022

3. Comparative genomics of two inbred lines of the potato cyst nematode Globodera rostochiensis reveals disparate effector family-specific diversification patterns

Author

van Steenbrugge, Joris J.M., van den Elsen, Sven, Holterman, Martijn, Sterken, Mark G., Thorpe, Peter, Goverse, Aska, Smant, Geert, and Helder, Johannes

Published

2021

4. Conventional and organic soil management as divergent drivers of resident and active fractions of major soil food web constituents

Author

Harkes, Paula, Suleiman, Afnan K. A., van den Elsen, Sven J. J., de Haan, Johannes J., Holterman, Martijn, Kuramae, Eiko E., and Helder, Johannes

Published

2019

5. Comparative genomics among cyst nematodes reveals distinct evolutionary histories among effector families and an irregular distribution of effector‐associated promoter motifs.

Author

van Steenbrugge, Joris J. M., van den Elsen, Sven, Holterman, Martijn, Lozano‐Torres, Jose L., Putker, Vera, Thorpe, Peter, Goverse, Aska, Sterken, Mark G., Smant, Geert, and Helder, Johannes

Subjects

CYST nematodes, COMPARATIVE genomics, SUGAR beet cyst nematode, GLOBODERA pallida, ARACHNOID cysts, DISEASE resistance of plants, NEMATODES, SOYBEAN cyst nematode

Abstract

Potato cyst nematodes (PCNs), an umbrella term used for two species, Globodera pallida and G. rostochiensis, belong worldwide to the most harmful pathogens of potato. Pathotype‐specific host plant resistances are essential for PCN control. However, the poor delineation of G. pallida pathotypes has hampered the efficient use of available host plant resistances. Long‐read sequencing technology allowed us to generate a new reference genome of G. pallida population D383 and, as compared to the current reference, the new genome assembly is 42 times less fragmented. For comparison of diversification patterns of six effector families between G. pallida and G. rostochiensis, an additional reference genome was generated for an outgroup, the beet cyst nematode Heterodera schachtii (IRS population). Large evolutionary contrasts in effector family topologies were observed. While VAPs (venom allergen‐like proteins) diversified before the split between the three cyst nematode species, the families GLAND5 and GLAND13 only expanded in PCNs after their separation from the genus Heterodera. Although DNA motifs in the promoter regions thought to be involved in the orchestration of effector expression ("DOG boxes") were present in all three cyst nematode species, their presence is not a necessity for dorsal gland‐produced effectors. Notably, DOG box dosage was only loosely correlated with the expression level of individual effector variants. Comparison of the G. pallida genome with those of two other cyst nematodes underlined the fundamental differences in evolutionary history between effector families. Resequencing of PCN populations with different virulence characteristics will allow for the linking of these characteristics to the composition of the effector repertoire as well as for the mapping of PCN diversification patterns resulting from extreme anthropogenic range expansion. [ABSTRACT FROM AUTHOR]

Published

2023

6. Comparison of two short DNA barcoding loci (COI and COII) and two longer ribosomal DNA genes (SSU & LSU rRNA) for specimen identification among quarantine root-knot nematodes (Meloidogyne spp.) and their close relatives

Author

Kiewnick, Sebastian, Holterman, Martijn, van den Elsen, Sven, van Megen, Hanny, Frey, Juerg Ernst, and Helder, Johannes

Published

2014

7. Characterisation of Ditylenchus paraoncogenus n. sp. (Nematoda: Anguinidae), a new stem nematode parasitising tumble thistle.

Author

Hashemi, Kobra, Karegar, Akbar, Helder, Johannes, Holterman, Martijn, and Mokaram Hesar, Abbas

Subjects

NEMATODES, RECOMBINANT DNA, VULVA, OVARIES, CUTICLE, INSECT anatomy, SOUTHERN root-knot nematode, ROOT-knot nematodes

Abstract

Summary: During a survey, three populations of a new stem nematode were isolated from galls on the shoots of tumble thistle (Gundelia tournefortii) plants in Fars province, Iran, and identified. Ditylenchus paraoncogenus n. sp. is described based on morphometric and morphological characters. It is characterised by having long-sized females, 1252 (943-1628) μ m long, narrow lateral fields with six incisures, rather developed stylet 9.9 (9.0-11.3) μ m long with round knobs, usually elongate and offset from intestine basal pharyngeal bulb, oocytes in two rows in distal part of ovary, V = 83.3 (80.3-86.2), post-vulval uterine sac 68.1 (46.9-86.1)% of vulva to anus distance long, bursa covering 63.2 (33.3-74.4)% of tail length, spicules 24.7 (21.0-27.9) μ m long with minute processes at the base of its manubrium and anteriorly pointed cuticle parts within the lamina, and thick conical tail, usually with a pointed terminus. In addition, the ITS and 18S rDNA sequences of 17 populations of D. destructor , D. dipsaci , D. medicaginis , D. myceliophagus , D. paraoncogenus n. sp., Ditylenchus sp. and Nothotylenchus geraerti plus one population of Anguinidae sp. were analysed. The results showed a close relationship between D. paraoncogenus n. sp. and the stem nematodes D. oncogenus , D. gigas , D. weischeri and D. dipsaci. Ditylenchus species were divided into two clades, one clade comprising stem nematodes and gall-forming nematodes of the family Anguinidae, and the other clade containing fungivorous species. Observations showed that the second-stage juvenile is the dormant stage of D. paraoncogenus n. sp. and can survive in anhydrobiotic condition for at least 4 years. [ABSTRACT FROM AUTHOR]

Published

2022

8. Phylum-Wide Analysis of SSU rDNA Reveals Deep Phylogenetic Relationships among Nematodes and Accelerated Evolution toward Crown Clades

Author

Holterman, Martijn, van der Wurff, Andre, van den Elsen, Sven, van Megen, Hanny, Bongers, Tom, Holovachov, Oleksandr, Bakker, Jaap, and Helder, Johannes

Published

2006

9. Shifts in the Active Rhizobiome Paralleling Low Meloidogyne chitwoodi Densities in Fields Under Prolonged Organic Soil Management.

Author

Harkes, Paula, van Steenbrugge, Joris Johannes Matheus, van den Elsen, Sven Johannes Josephus, Suleiman, Afnan Khalil Ahmad, de Haan, Johannes Jan, Holterman, Martijn Hermanus Maria, and Helder, Johannes

Subjects

SOIL management, ROOT-knot nematodes, HISTOSOLS, RIBOSOMAL DNA, CROP management, PEAS, NEMATODE-destroying fungi

Abstract

Plants manipulate their rhizosphere community in a species and even a plant life stage-dependent manner. In essence plants select, promote and (de)activate directly the local bacterial and fungal community, and indirectly representatives of the next trophic level, protists and nematodes. By doing so, plants enlarge the pool of bioavailable nutrients and maximize local disease suppressiveness within the boundaries set by the nature of the local microbial community. MiSeq sequencing of specific variable regions of the 16S or 18S ribosomal DNA (rDNA) is widely used to map microbial shifts. As current RNA extraction procedures are time-consuming and expensive, the rRNA-based characterization of the active microbial community is taken along less frequently. Recently, we developed a relatively fast and affordable protocol for the simultaneous extraction of rDNA and rRNA from soil. Here, we investigated the long-term impact of three type of soil management, two conventional and an organic regime, on soil biota in fields naturally infested with the Columbian root-knot nematode Meloidogyne chitwoodi with pea (Pisum sativum) as the main crop. For all soil samples, large differences were observed between resident (rDNA) and active (rRNA) microbial communities. Among the four organismal group under investigation, the bacterial community was most affected by the main crop, and unweighted and weighted UniFrac analyses (explaining respectively 16.4% and 51.3% of the observed variation) pointed at a quantitative rather than a qualitative shift. LEfSe analyses were employed for each of the four organismal groups to taxonomically pinpoint the effects of soil management. Concentrating on the bacterial community in the pea rhizosphere, organic soil management resulted in a remarkable activation of members of the Burkholderiaceae, Enterobacteriaceae, and Pseudomonadaceae. Prolonged organic soil management was also accompanied by significantly higher densities of bacterivorous nematodes, whereas levels of M. chitwoodi had dropped drastically. Though present and active in the fields under investigation Orbiliaceae, a family harboring numerous nematophagous fungi, was not associated with the M. chitwoodi decline. A closer look revealed that a local accumulation and activation of Pseudomonas, a genus that includes a number of nematode-suppressive species, paralleled the lower M. chitwoodi densities. This study underlines the relevance of taking along both resident and active fractions of multiple organismal groups while mapping the impact of e.g. crops and soil management regimes. [ABSTRACT FROM AUTHOR]

Published

2020

10. The effector GpRbp‐1 of Globodera pallida targets a nuclear HECT E3 ubiquitin ligase to modulate gene expression in the host.

Author

Diaz‐Granados, Amalia, Sterken, Mark G., Overmars, Hein, Ariaans, Roel, Holterman, Martijn, Pokhare, Somnath S., Yuan, Yulin, Pomp, Rikus, Finkers‐Tomczak, Anna, Roosien, Jan, Slootweg, Erik, Elashry, Abdenaser, Grundler, Florian M.W., Xiao, Fangming, Goverse, Aska, and Smant, Geert

Subjects

GLOBODERA pallida, GENE expression, CYST nematodes, GOLDEN nematode, CELL physiology, UBIQUITIN ligases

Abstract

Summary: Plant‐parasitic nematodes secrete effectors that manipulate plant cell morphology and physiology to achieve host invasion and establish permanent feeding sites. Effectors from the highly expanded SPRYSEC (SPRY domain with a signal peptide for secretion) family in potato cyst nematodes have been implicated in activation and suppression of plant immunity, but the mechanisms underlying these activities remain largely unexplored. To study the host mechanisms used by SPRYSEC effectors, we identified plant targets of GpRbp‐1 from the potato cyst nematode Globodera pallida. Here, we show that GpRbp‐1 interacts in yeast and in planta with a functional potato homologue of the Homology to E6‐AP C‐Terminus (HECT)‐type ubiquitin E3 ligase UPL3, which is located in the nucleus. Potato lines lacking StUPL3 are not available, but the Arabidopsis mutant upl3‐5 displaying a reduced UPL3 expression showed a consistently small but not significant decrease in susceptibility to cyst nematodes. We observed a major impact on the root transcriptome by the lower levels of AtUPL3 in the upl3‐5 mutant, but surprisingly only in association with infections by cyst nematodes. To our knowledge, this is the first example that a HECT‐type ubiquitin E3 ligase is targeted by a pathogen effector and that a member of this class of proteins specifically regulates gene expression under biotic stress conditions. Together, our data suggest that GpRbp‐1 targets a specific component of the plant ubiquitination machinery to manipulate the stress response in host cells. [ABSTRACT FROM AUTHOR]

Published

2020

11. Nematodes as evolutionary commuters between marine, freshwater and terrestrial habitats.

Author

Holterman, Martijn, Schratzberger, Michaela, and Helder, Johannes

Subjects

*NEMATODES, *RIBOSOMAL DNA, *NUCLEOTIDE sequence, *WELL water, *RECOMBINANT DNA, *COMMUTERS

Abstract

Nematodes are the only major metazoan group which is persistently abundant and diverse across marine, freshwater and terrestrial ecosystems. This could be the result of a few major habitat transitions followed by extensive diversification, or numerous habitat transitions followed by moderate diversification. To pinpoint habitat transitions, we superposed nematode habitat associations on an available phylum-wide phylogenetic tree based on small subunit ribosomal DNA sequences (≈2730 SSU rDNA sequences covering ≈1750 nematode taxa). Our analysis revealed at least 30 major habitat transitions within the phylum Nematoda. These transitions as well as their directionality were unevenly spread over the 12 major clades. Most transitions reside in Clades 1–6, and these transitions are bidirectional. Members of Clades 8–12 showed five full transitions, and these took place exclusively from terrestrial to marine systems. We relate our results to the distinct secretory–excretory systems in Clades 1–6 and Clades 8–12, as well as to differences in water permeability of the nematode cuticle. Hence, the phylum Nematoda is characterized by a relatively large number of habitat transitions followed by moderate diversification. The identification of multiple habitat transitions at a low taxonomic level will facilitate future investigations into the mechanisms underlying this unusual ecological flexibility. [ABSTRACT FROM AUTHOR]

Published

2019

12. Secreted venom allergen-like proteins of helminths: Conserved modulators of host responses in animals and plants.

Author

Wilbers, Ruud H. P., Schneiter, Roger, Holterman, Martijn H. M., Drurey, Claire, Smant, Geert, Asojo, Oluwatoyin A., Maizels, Rick M., and Lozano-Torres, Jose L.

Subjects

VENOM, ALLERGENS, PROTEINS, HELMINTHS, PLANTS, ANIMALS, TISSUES, PARASITISM

Abstract

Despite causing considerable damage to host tissue at the onset of parasitism, invasive helminths establish remarkably persistent infections in both animals and plants. Secretions released by these obligate parasites during host invasion are thought to be crucial for their persistence in infection. Helminth secretions are complex mixtures of molecules, most of which have unknown molecular targets and functions in host cells or tissues. Although the habitats of animal- and plant-parasitic helminths are very distinct, their secretions share the presence of a structurally conserved group of proteins called venom allergen-like proteins (VALs). Helminths abundantly secrete VALs during several stages of parasitism while inflicting extensive damage to host tissue. The tight association between the secretion of VALs and the onset of parasitism has triggered a particular interest in this group of proteins, as improved knowledge on their biological functions may assist in designing novel protection strategies against parasites in humans, livestock, and important food crops. [ABSTRACT FROM AUTHOR]

Published

2018

13. A phylogenetic tree of nematodes based on about 1200 full-length small subunit ribosomal DNA sequences.

Author

VAN MEGEN, Hanny, VAN DEN ELSEN, Sven, HOLTERMAN, Martijn, KARSSEN, Gerrit, MOOYMAN, Paul, BONGERS, Tom, HOLOVACHOV, Oleksandr, BAKKER, Jaap, and HELDER, Johannes

Subjects

NEMATODE phylogeny, RIBOSOMAL RNA, NUCLEOTIDE sequence, NEMATODE morphology, NEMATODE classification

Abstract

As a result of the scarcity of informative morphological and anatomical characters, nematode systematics have always been volatile. Differences in the appreciation of these characters have resulted in numerous classifications and this greatly confuses scientific communication. An advantage of the use of molecular data is that it allows for an enormous expansion of the number of characters. Here we present a phylogenetic tree based on 1215 small subunit ribosomal DNA sequences (ca 1700 bp each) covering a wide range of nematode taxa. Of the 19 nematode orders mentioned by De Ley et al. (2006) 15 are represented here. Compared with Holterman et al. (2006) the number of taxa analysed has been tripled. This did not result in major changes in the clade subdivision of the phylum, although a decrease in the number of well supported nodes was observed. Especially at the family level and below we observed a considerable congruence between morphology and ribosomal DNA-based nematode systematics and, in case of discrepancies, morphological or anatomical support could be found for the alternative grouping in most instances. The extensiveness of convergent evolution is one of the most striking phenomena observed in the phylogenetic tree presented here - it is hard to find a morphological, ecological or biological characteristic that has not arisen at least twice during nematode evolution. Convergent evolution appears to be an important additional explanation for the seemingly persistent volatility of nematode systematics. [ABSTRACT FROM AUTHOR]

Published

2018

14. Disparate gain and loss of parasitic abilities among nematode lineages.

Author

Holterman, Martijn, Karegar, Akbar, Mooijman, Paul, van Megen, Hanny, van den Elsen, Sven, Vervoort, Mariette T. W., Quist, Casper W., Karssen, Gerrit, Decraemer, Wilfrida, Opperman, Charles H., Bird, David M., Kammenga, Jan, Goverse, Aska, Smant, Geert, and Helder, Johannes

Subjects

*PLANT parasites, *PLANT diversity, *NEMATODES, *PLANT diseases, *PLANT evolution

Abstract

Plant parasitism has arisen time and again in multiple phyla, including bacteria, fungi, insects and nematodes. In most of these organismal groups, the overwhelming diversity hampers a robust reconstruction of the origins and diversification patterns of this trophic lifestyle. Being a moderately diversified phylum with ≈ 4,100 plant parasites (15% of total biodiversity) subdivided over four independent lineages, nematodes constitute a major organismal group for which the genesis of plant parasitism could be mapped. Since substantial crop losses worldwide have been attributed to less than 1% of these plant parasites, research efforts are severely biased towards this minority. With the first molecular characterisation of numerous basal and supposedly harmless plant parasites as well as their non-parasitic relatives, we were able to generate a comprehensive molecular framework that allows for the reconstruction of trophic diversification for a complete phylum. In each lineage plant parasites reside in a single taxonomic grouping (family or order), and by taking the coverage of the next lower taxonomic level as a measure for representation, 50, 67, 100 and 85% of the known diversity was included. We revealed distinct gain and loss patterns with regard to plant parasitism per se as well as host exploitation strategies between these lineages. Our map of parasitic nematode biodiversity also revealed an unanticipated time reversal in which the two most ancient lineages showed the lowest level of ecological diversification and vice versa. [ABSTRACT FROM AUTHOR]

Published

2017

15. Morphological and molecular data support the monophyletic nature of the genus Pratylenchoides Winslow, 1958 (Nematoda: Merliniidae) and reveal its intrageneric structuring.

Author

AZIZI, Kourosh, ESKANDARI, Ali, KAREGAR, Akbar, GHADERI, Reza, VAN DEN ELSEN, Sven, HOLTERMAN, Martijn, and HELDER, Johannes

Subjects

SOILS, HABITATS, PHASMIDA, INSECTS, PHASMIDAE

Abstract

The genus Pratylenchoides has recently been transferred from the family Pratylenchidae to Merliniidae. To investigate further the relationship between these 'Pratylenchus-like' species (residing in the subfamily Pratylenchoidinae) and the subfamily Merliniinae, more than 500 soil samples were collected from various natural and agronomic habitats in the northern and north-western provinces of Iran. In this study, paratypes or populations of 22 species of Pratylenchoides, including the Iranian populations of P. alkani, P. crenicauda, P. erzurumensis, P. laticauda, P. nevadensis, P. ritteri and an undescribed species, were studied. Intra- and interspecies variation of the following characters were investigated: position of the pharyngeal gland nuclei, shape of female and male head, striation of female tail terminus, number of lateral lines at mid-body and in phasmid region for females, presence of intestinal fasciculi, and shape of sperm. Combining morphological and molecular data prompted us to propose two clusters of related Pratylenchoides species. One cluster includes P. crenicauda, P. variabilis and P. erzurumensis, whereas the second cluster consists of P. alkani, P. nevadensis and P. ritteri. Our data point to a sister positioning of P. magnicauda vis-à-vis all Pratylenchoides species included in this research. Analyses of SSU rDNA (for family and subfamily relationships) and partial LSU rDNA sequences (for intrageneric relationships) data revealed: i) the distal and nested positioning of all Pratylenchoidinae within the Merliniidae; ii) the single transition from ectoparasitism to migratory endoparasitism within the family Merliniidae corresponds with the current subfamily partitioning; and iii) support for the monophyletic nature of the genus Pratylenchoides. [ABSTRACT FROM AUTHOR]

Published

2016

16. Evaluation of High-resolution Melting Curve Analysis as a New Tool for Root-knot Nematode Diagnostics.

Author

Holterman, Martijn H. M., Oggenfuss, Markus, Frey, Juerg Ernst, and Kiewnick, Sebastian

Subjects

*ROOT-knot nematodes, *PLANT parasites, *DIAGNOSTIC microbiology, *PATHOGENIC microorganisms, *RIBOSOMAL DNA, *PLANT genetics, *PLANT-microbe relationships

Abstract

In the detection of plant pests, speed and accuracy are vital. High-resolution melting curve (HRMC) analysis was therefore evaluated as a new tool for the identification of root-knot nematodes ( Meloidogyne spp.). On the basis of the second intergenic spacer (IGS2) region of the ribosomal DNA cistron, Meloidogyne chitwoodi, M. fallax and M. hapla were successfully distinguished from each other and the group of the three tropical species, M. incognita, M. arenaria and M. javanica. Conversely, it was shown that the IGS2 region is not suitable for the tropical species M. enterolobii (senior synonym of M. mayaguensis) as the amplification of multiple fragments of different lengths prevented a reliable HRMC analysis. However, the obtained results provide a proof of principle that HRMC analysis can be a suitable single-tube assay for fast and accurate root-knot nematode identification. [ABSTRACT FROM AUTHOR]

Published

2012

17. A strategy in searching for stress tolerance-correlated characteristics in nematodes while accounting for phylogenetic interdependence.

Author

HOLTERMAN, Martijn H. M., KORTHALS, Gerard W., DOROSZUK, Agnieszka, VAN MEGEN, Hanny H. B., BAKKER, Jaap, BONGERS, Tom, HELDER, Johannes, and VAN DER WURFF, Andre

Subjects

*NEMATODES, *PHYLOGENY, *SOIL nematodes, *SOIL animals, *SOIL invertebrates

Abstract

Biological indicators are highly relevant for assessing the condition of a soil as they are integrative; they reflect the overall impact of physical, chemical and biological changes. Indigenous soil organisms are preferable to other test organisms because the diversity and condition of indigenous soil organisms reflect both acute and chronic effects of soil disturbances. Nematodes are ubiquitous, speciose, easily extractable and present in extremely high numbers. Given the ever increasing amount of sequence data, DNA barcode-based community analysis will soon be possible and a next step would be to define objective criteria for the ecological grouping of soil nematodes. Here, we present a framework to ascertain which traits are correlated with a tolerance to stress. For this, a field study on the effects of pH and copper on nematode communities was re-analysed. Changes in abundances of individual genera were correlated with a number of potentially stress tolerance-related characteristics. The generalised least squares (GLS) method was used to account for the phylogenetic dependence of the data. Only the relationship between the ability to enter a survival stage and tolerance to copper at pH 6.1 was found to be significant, but the quantity of missing data probably had a negative impact on the analyses. This study did, however, clearly demonstrate the importance of accounting for the effects of phylogenetic dependence in the data. When the phylogeny was taken into account, we observed an average change in P value of 0.196 (and in some cases as much as 0.6) for the correlations of possible stress-related characteristics and Cu or pH tolerance. This research constitutes a proof-of-principle for a transparent method to relate stress tolerance to (ecological) characteristics. The usefulness of this powerful method should become even clearer when substantially higher numbers of individuals are analysed (as facilitated by using DNA barcodes) and when missing data are filled in. [ABSTRACT FROM AUTHOR]

Published

2011

18. A phylogenetic tree of nematodes based on about 1200 full-length small subunit ribosomal DNA sequences.

Author

VAN MEGEN, Hanny, VAN DEN ELSEN, Sven, HOLTERMAN, Martijn, KARSSEN, Gerrit, MOOYMAN, Paul, BONGERS, Tom, HOLOVACHOV, Oleksandr, BAKKER, Jaap, and HELDER, Johannes

Subjects

PLANT nematodes, PLANT parasites, RIBOSOMAL DNA, PLANT genetics, PHYLOGENY, BIOLOGICAL evolution

Abstract

As a result of the scarcity of informative morphological and anatomical characters, nematode systematics have always been volatile. Differences in the appreciation of these characters have resulted in numerous classifications and this greatly confuses scientific communication. An advantage of the use of molecular data is that it allows for an enormous expansion of the number of characters. Here we present a phylogenetic tree based on 1215 small subunit ribosomal DNA sequences (ca 1700 bp each) covering a wide range of nematode taxa. Of the 19 nematode orders mentioned by De Ley et al. (2006) 15 are represented here. Compared with Holterman et al. (2006) the number of taxa analysed has been tripled. This did not result in major changes in the clade subdivision of the phylum, although a decrease in the number of well supported nodes was observed. Especially at the family level and below we observed a considerable congruence between morphology and ribosomal DNA-based nematode systematics and, in case of discrepancies, morphological or anatomical support could be found for the alternative grouping in most instances. The extensiveness of convergent evolution is one of the most striking phenomena observed in the phylogenetic tree presented here – it is hard to find a morphological, ecological or biological characteristic that has not arisen at least twice during nematode evolution. Convergent evolution appears to be an important additional explanation for the seemingly persistent volatility of nematode systematics. [ABSTRACT FROM AUTHOR]

Published

2009

19. Small subunit ribosomal DNA-based phylogeny of basal Chromadoria (Nematoda) suggests that transitions from marine to terrestrial habitats (and vice versa) require relatively simple adaptations

Author

Holterman, Martijn, Holovachov, Oleksandr, van den Elsen, Sven, van Megen, Hanny, Bongers, Tom, Bakker, Jaap, and Helder, Johannes

Published

2008

20. A ribosomal DNA-based framework for the detection and quantification of stress-sensitive nematode families in terrestrial habitats.

Author

Holterman, Martijn, Rybarczyk, Katarzyna, Van den Elsen, Sven, Van Megen, Hanny, Mooyman, Paul, Santiago, Reyes Peña, Bongers, Tom, Bakker, Jaap, and Helder, Johannes

Subjects

*NEMATODES, *DNA, *BIOSENSORS, *DORYLAIMIDA, *POLYMERASE chain reaction, *NUCLEOTIDE sequence

Abstract

Indigenous communities of soil-resident nematodes have a high potential for soil health assessment as nematodes are diverse, abundant, trophically heterogeneous and easily extractable from soil. The conserved morphology of nematodes is the main operational reason for their under-exploitation as soil health indicators, and a user-friendly biosensor system should preferably be based on nonmorphological traits. More than 80% of the most environmental stress-sensitive nematode families belong to the orders Mononchida and Dorylaimida. The phylogenetic resolution offered by full-length small subunit ribosomal DNA (SSU rDNA) sequences within these two orders is highly different. Notwithstanding several discrepancies between morphology and SSU rDNA-based systematics, Mononchida families (indicated here as M1–M5) are relatively well-supported and, consequently, family-specific DNA sequences signatures could be defined. Apart from Nygolaimidae and Longidoridae, the resolution among Dorylaimida families was poor. Therefore, a part of the more variable large subunit rDNA (≈ 1000 bp from the 5′-end) was sequenced for 72 Dorylaimida species. Sequence analysis revealed a subclade division among Dorylaimida (here defined as D1–D9, PP1–PP3) that shows only distant similarity with ‘classical’ Dorylaimid systematics. Most subclades were trophically homogeneous, and — in most cases — specific morphological characteristics could be pinpointed that support the proposed division. To illustrate the practicability of the proposed molecular framework, we designed primers for the detection of individual subclades within the order Mononchida in a complex DNA background (viz. in terrestrial or freshwater nematode communities) and tested them in quantitative assays (real-time polymerase chain reaction). Our results constitute proof-of-principle for the concept of DNA sequence signatures-based monitoring of stress sensitive nematode families in environmental samples. [ABSTRACT FROM AUTHOR]

Published

2008

21. Structural and functional characterization of a novel, host penetration-related pectate lyase from the potato cyst nematode Globodera rostochiensis.

Author

KUDLA, URSZULA, MILAC, ADINA-LUMINITA, QIN, LING, OVERMARS, HEIN, ROZE, ERWIN, HOLTERMAN, MARTIJN, PETRESCU, ANDREI-JOSE, GOVERSE, ASKA, BAKKER, JAAP, HELDER, JOHANNES, and SMANT, GEERT

Subjects

GOLDEN nematode, PLANT cell walls, POLYSACCHARIDES, NEMATODES, POTATOES, BIOPOLYMERS

Abstract

The cell wall, a strong extraprotoplasmic layer surrounding plant cells that mainly consists of a variety of polysaccharides, constitutes a major barrier for potential parasites. Plant-parasitic nematodes are well equipped to overcome this barrier as they produce and secrete cell-wall-degrading enzymes. Expression profiling of various life stages of the potato cyst nematode Globodera rostochiensis revealed a novel pectate lyase gene ( Gr-pel2, 759 bp). The Gr-PEL2 protein showed highest similarity to pectate lyases from the facultative plant-parasitic nematodes Bursaphelenchus mucronatus and B. xylophilus and the soil-inhabiting saprophytic Streptomyces and Frankia species (i.e. 40–42% identity and 58–60% similarity), whereas only a remote relatedness to the previously identified Gr-PEL1 was observed (i.e. 28% identity and 43% similarity). Transient expression of Gr-pel2 in leaves of Nicotiana benthamiana resulted in severe malformations of the infiltrated tissues, not relating to maceration and soft rot symptoms. Ca2+ is known to be essential for pectate lyase activity, and the most likely calcium-binding site was identified in the Gr-PEL2 protein by combining homology modelling of the three-dimensional structure, site-directed mutagenesis and transient expression in leaves. A highly charged cleft in Gr-PEL2, which is likely to be involved in substrate binding and which is also significantly more hydrophobic in Gr-PEL1, was shown to be essential for protein activity. Our results underline the broad spectrum of pectate lyases and cell-wall-degrading enzymes necessary for successful parasitism by cyst nematodes. [ABSTRACT FROM AUTHOR]

Published

2007

22. Characterization of the Habitat- and Season-Independent Increase in Fungal Biomass Induced by the Invasive Giant Goldenrod and Its Impact on the Fungivorous Nematode Community.

Author

Harkes, Paula, van Heumen, Lisa J. M., van den Elsen, Sven J. J., Mooijman, Paul J. W., Vervoort, Mariëtte T. W., Gort, Gerrit, Holterman, Martijn H. M., van Steenbrugge, Joris J. M., Quist, Casper W., Helder, Johannes, and Pinzari, Flavia

Subjects

BIOMASS, GOLDENRODS, FUNGAL communities, SOIL classification, INVASIVE plants, FOOD chains

Abstract

Outside its native range, the invasive plant species giant goldenrod (Solidago gigantea) has been shown to increase belowground fungal biomass. This non-obvious effect is poorly characterized; we don't know whether it is plant developmental stage-dependent, which fractions of the fungal community are affected, and whether it is reflected in the next trophic level. To address these questions, fungal assemblages in soil samples collected from invaded and uninvaded plots in two soil types were compared. Although using ergosterol as a marker for fungal biomass demonstrated a significant increase in fungal biomass, specific quantitative PCR (qPCR) assays did not point at a quantitative shift. MiSeq-based characterization of the belowground effects of giant goldenrod revealed a local increase of mainly Cladosporiaceae and Glomeraceae. This asymmetric boost in the fungal community was reflected in a specific shift in the fungivorous nematode community. Our findings provide insight into the potential impact of invasive plants on local fungal communities. [ABSTRACT FROM AUTHOR]

Published

2021

23. Corrigendum: A Worm's World: Ecological Flexibility Pays Off for Free-Living Nematodes in Sediments and Soils.

Author

Schratzberger, Michaela, Holterman, Martijn, Oevelen, Dick Van, and Helder, Johannes

Subjects

*SOIL nematodes, *WORMS, *WAGES

Published

2019

24. Genomic Reconstruction of the Introduction and Diversification of Golden Potato Cyst Nematode Populations in Indonesia.

Author

Nurul Dwi Handayani, Prabowo Lestari, van As, Wouter, Holterman, Martijn, den Elsen, Sven van, Dikin, Antarjo, Bert, Wim, Helder, Johannes, and Van Steenbrugge, Joris J. M.

Subjects

*GOLDEN nematode, *GENE families, *CYST nematodes, *SINGLE nucleotide polymorphisms, *VENOM, *GENOTYPES, *SOYBEAN cyst nematode

Abstract

Potato cyst nematodes (PCNs), the umbrella term for Globodera rostochiensis and G. pallida, coevolved with their Solanaceous hosts in the Andean Mountain region. From there, PCN proliferated worldwide to virtually all potato production areas. PCN is a major factor limiting the potato production in Indonesia. In our survey, only G. rostochiensis was found. Fourteen field populations were collected on Java and Sumatra, and unique variants were called by mapping resequencing data on a G. rostochiensis reference genome. A phylogenetic tree based on 1.4 million unique variants showed a genotypic separation between the outgroup, a Scottish Ro1 population, and all Indonesian populations. This separation was comparable in size with the genotypic distinction between the Javanese and the Sumatran PCN populations. Next, variants within PCN effector gene families SPRYSEC, 1106, 4D06, and venom allergen-like protein (VAL) that all interfere with the host innate immune system were compared. Distinct selective pressures acted on these effector families; while SPRYSECs (4,341 single-nucleotide polymorphisms [SNPs]/insertions or deletions of bases [indels]) behaved like neutral genes, the phylogenetic trees of 1106, 4D06, and VAL proteins (235, 790, and 150 SNPs/indels, respectively) showed deviating topologies. Our data suggest that PCN was introduced on Java not too long after the introduction of potato in the middle of the eighteenth century. Soon thereafter, the pathogen established on Sumatra and started to diversify independently. This scenario was corroborated by diversification patterns of the effector families 1106, 4D06, and VAL. Our data demonstrate how genome resequencing data from a nonindigenous pathogen can be used to reconstruct the introduction and diversification process. [ABSTRACT FROM AUTHOR]

Published

2022

25. Organic amendment strengthens interkingdom associations in the soil and rhizosphere of barley (Hordeum vulgare).

Author

Suleiman, Afnan K.A., Harkes, Paula, van den Elsen, Sven, Holterman, Martijn, Korthals, Gerard W., Helder, Johannes, and Kuramae, Eiko E.

Abstract

Anthropogenic modification of soil systems has diverse impacts on food web interactions and ecosystem functioning. To understand the positive, neutral or adverse effects of agricultural practices on the associations of community members of soil microbes and microfaunal biomes, we characterized the effects of different fertilization types (organic, inorganic and a combination of organic and inorganic) on the food web active communities in the bulk soil and rhizosphere compartments in field conditions. We examined the influence of fertilization on (i) individual groups (bacteria, protozoa and fungi as microbe representatives and metazoans as microfauna representatives) and (ii) inter-kingdom interactions (focusing on the interactions between bacteria and eukaryotic groups) both neglecting and considering environmental factors in our analysis in combination with the microbial compositional data. Our results revealed different patterns of biota communities under organic versus inorganic fertilization, which shaped food web associations in both the bulk and rhizosphere compartments. Overall, organic fertilization increased the complexity of microbial–microfaunal ecological associations with inter- and intra- connections among categories of primary decomposers (bacteria and fungi) and predators (protozoa and microfauna) and differences in potential function in the soil food web in both the bulk and rhizosphere compartments. Furthermore, the inter-connections between primary decomposers and predators in bulk soil were more pronounced when environmental factors were considered. We suggest that organic fertilization selects bacterial orders with different potential ecological functions and interactions as survival, predation and cooperation due to more complex environment than those of inorganic or combined fertilization. Our findings support the importance of a comprehensive understanding of trophic food web patterns for soil management systems. Unlabelled Image • Organic amendment (OA) has stronger effect than inorganic addition on soil food web. • OA steers more complex microbe-eukaryote associations than mineral fertilization. • OA strengths diverse microbe-eukaryote associations as survival, predation and cooperation. • Bulk soil food web associations are more pronounced when considering soil factors. [ABSTRACT FROM AUTHOR]

Published

2019

26. Analyses of morphological and molecular characteristics of Telotylenchinae from Iran point at the validity of the genera Bitylenchus and Sauertylenchus.

Author

Azizi K, Eskandari A, Karegar A, Ghaderi R, Elsen SVD, Holterman M, and Helder J

Subjects

Animals, DNA, Ribosomal genetics, Iran, Phylogeny, RNA, Ribosomal, 18S genetics, Sequence Analysis, DNA, Tylenchoidea

Abstract

To investigate relationships within the subfamily Telotylenchinae, more than 500 soil samples were collected from various natural and agricultural habitats in several localities of Iran. Individuals of seven known species, including Bitylenchus dubius, B. parvus, B. serranus, Sauertylenchus maximus, Tylenchorhynchus clarus, T. microconus and Trophurus ussuriensis, were recovered and characterized based on morphological and morphometric characters. Furthermore, phylogenetic relationships within representatives of the subfamily Telotylenchinae were explored using 13 sequences from the D2-D3 expansion regions of 28S ribosomal (r) DNA and 13 sequences for the partial 18S rDNA genes obtained in the present study. Analyses based on the relatively conserved 18S rDNA gene underlined the polyphyletic status of Tylenchorhynchus sensu lato, as three clusters representing Tylenchorhynchus, Bitylenchus and Sauertylenchus were well separated, and interspersed by, e.g., representatives of the Macrotrophurinae. Analysis of the more variable D2-D3 28S rDNA sequences suggested at least four clades within the subfamily Telotylenchinae: two clades dominated by Tylenchorhynchus species; a third clade harbouring representatives of Sauertylenchus, Bitylenchus, and Paratrophurus in distinct but unresolved branches;and a fourth clade dominated by Trophurus species. Although no molecular information was available from a number of genera that were originally gathered under Tylenchorhynchus sensu lato, we concluded that both Bitylenchus and Sauertylenchus should be seen as valid Telotylenchinae genera related to, but distinct from Tylenchorhynchus.

Published

2022

27. Genomic Reconstruction of the Introduction and Diversification of Golden Potato Cyst Nematode Populations in Indonesia.

Author

Handayani ND, Lestari P, van As W, Holterman M, van den Elsen S, Dikin A, Bert W, Helder J, and Van Steenbrugge JJM

Subjects

Animals, Genomics, Indonesia, Phylogeny, Plant Diseases, Solanum tuberosum genetics, Tylenchoidea genetics

Abstract

Potato cyst nematodes (PCNs), the umbrella term for Globodera rostochiensis and G. pallida , coevolved with their Solanaceous hosts in the Andean Mountain region. From there, PCN proliferated worldwide to virtually all potato production areas. PCN is a major factor limiting the potato production in Indonesia. In our survey, only G . rostochiensis was found. Fourteen field populations were collected on Java and Sumatra, and unique variants were called by mapping resequencing data on a G . rostochiensis reference genome. A phylogenetic tree based on 1.4 million unique variants showed a genotypic separation between the outgroup, a Scottish Ro1 population, and all Indonesian populations. This separation was comparable in size with the genotypic distinction between the Javanese and the Sumatran PCN populations. Next, variants within PCN effector gene families SPRYSEC, 1106, 4D06, and venom allergen-like protein (VAL) that all interfere with the host innate immune system were compared. Distinct selective pressures acted on these effector families; while SPRYSECs (4,341 single-nucleotide polymorphisms [SNPs]/insertions or deletions of bases [indels]) behaved like neutral genes, the phylogenetic trees of 1106, 4D06, and VAL proteins (235, 790, and 150 SNPs/indels, respectively) showed deviating topologies. Our data suggest that PCN was introduced on Java not too long after the introduction of potato in the middle of the eighteenth century. Soon thereafter, the pathogen established on Sumatra and started to diversify independently. This scenario was corroborated by diversification patterns of the effector families 1106, 4D06, and VAL. Our data demonstrate how genome resequencing data from a nonindigenous pathogen can be used to reconstruct the introduction and diversification process.

Published

2022

28. Morphological and molecular characterization of Pratylenchoides persicus n. sp. (Nematoda: Merliniidae) and additional data on two other species of the genus from Iran.

Author

Azizi K, Eskandari A, Karegar A, Ghaderi R, Elsen SV, Holterman M, and Helder J

Subjects

Animal Distribution, Animals, DNA, Helminth genetics, Female, Iran, Male, Nematoda physiology, Phylogeny, RNA, Helminth, RNA, Ribosomal, 28S genetics, Species Specificity, Nematoda anatomy & histology, Nematoda classification

Abstract

Some nematologists recently placed the genus Pratylenchoides, ("Lesion Nematode-like") in the family Merliniidae. To investigate Pratylenchoides species diversity and their relationships with other Merliniidae genera, specimens were collected from various habitats in the northern and northwestern provinces of Iran. The morphological and molecular study yielded three species of the genus Pratylenchoides, including P. persicus n. sp. This new species is characterized by having lip region rounded or slightly flattened anteriorly with four or five fine but distinct annuli, pharyngeal glands off-set or slightly overlapping the intestine dorsally, all three gland nuclei located anterior to the pharyngo-intestinal valve and tail cylindrical with truncate to low rounded terminus. Morphologically, P. persicus n. sp. can be distinguished from the most closely related species, P. heathi by having shorter body and stylet length in females and males, as well as a shorter tail with different terminus in females. Pratylenchoides laticauda and P. cf. nevadensis are reported from Iran for the first time. Phylogenetic analysis based on the D2/D3 region of the large subunit of ribosomal DNA revealed Pratylenchoides as a monophyletic genus, and it supports the delineation of the new species, P. persicus n. sp.

Published

2016