Saskia Hogenhout

Last updated
Saskia Hogenhout
FRS
Born
Saskia A. Hogenhout

(1969-03-10) March 10, 1969 (age 55) [1]
Alma mater Vrije Universiteit Amsterdam (MSc)
Wageningen University (PhD)
Scientific career
Fields Biology
Plant Genetics
Entomology [2]
Institutions Ohio State University
John Innes Centre
Thesis The molecular basis of the interactions between luteoviruses and their aphid vectors  (1999)
Website www.jic.ac.uk/people/saskia-hogenhout OOjs UI icon edit-ltr-progressive.svg

Saskia A. Hogenhout FRS (born 1969), is a Dutch professor of entomology and ecology specialising in molecular plant, microbe and insect interactions. [3] [2] [4] [5]

Contents

Education and career

Hogenhout was educated at Vrije Universiteit Amsterdam with an MSc in Biology in 1994, her PhD looked at the molecular basis of luteovirus-aphid interactions and was awarded at Wageningen University in 1999. [1]

Career and research

After her PhD, Hogenhout moved to Ohio State University to be assistant and then associate professor [6] and since 2007 has been Group Leader in plant health at the John Innes Centre in Norwich. [7]

In 2013, she was appointed honorary professor at the University of East Anglia, and in 2018, she was made professor by special appointment at the University of Amsterdam. [3]

Hogenhout's research investigates the interactions between insects and plants and how microorganisms can manipulate this. [2] [4]

Her group discovered the key virulence protein SAP54 which phytoplasma bacteria use to manipulate the flowering of plants, the bacteria is carried between plants by plant feeding insects such as leafhoppers. [8]

Her work looks at other insects that transmit plant diseases such as the peach potato aphid Myzus persicae, this aphid can carry many different plant viruses and feeds on a wide range of plants and can manipulate plants to benefit the aphids by producing virulence proteins. [9] Her group have sequenced the genome of the peach potato aphid and were surprised to find that it was smaller than the pea aphid Acyrthosiphon pisum, a species with many fewer host plants. [10] Hogenhout found that the aphid can adapt the virulence proteins it produces in response to the plant species it is feeding on; and as it can reproduce asexually, producing a clone of genetically identical offspring, local populations of aphids can adapt quickly to their environment. [11]

Hogenhout's research has also looked at the responses of plants to insect feeding, she showed that plants take in calcium to damaged plant cells in the site where aphid feeding stylets penetrate, the cells would then mobilise further calcium in response to this alarm. [12] [13]

Hogenhout is leading a major UK consortium project BRIGIT carrying out research into transmission of the bacterial pathogen Xylella fastidiosa , which has caused widespread plant disease in Southern Europe. The research will find out more information about the disease such as symptoms and epidemiology, and look into how the disease may be transmitted by insects such as leafhoppers and the transport of commercial plants by humans. [14]

Awards and honours

Hogenhout was elected a Fellow of the Royal Entomological Society (FRES)[ when? ] and a Fellow of the Royal Society (FRS) in 2024. [15]

Related Research Articles

<span class="mw-page-title-main">Aphid</span> Superfamily of insects

Aphids are small sap-sucking insects and members of the superfamily Aphidoidea. Common names include greenfly and blackfly, although individuals within a species can vary widely in color. The group includes the fluffy white woolly aphids. A typical life cycle involves flightless females giving live birth to female nymphs—who may also be already pregnant, an adaptation scientists call telescoping generations—without the involvement of males. Maturing rapidly, females breed profusely so that the number of these insects multiplies quickly. Winged females may develop later in the season, allowing the insects to colonize new plants. In temperate regions, a phase of sexual reproduction occurs in the autumn, with the insects often overwintering as eggs.

<span class="mw-page-title-main">Hemiptera</span> Order of insects often called true bugs

Hemiptera is an order of insects, commonly called true bugs, comprising over 80,000 species within groups such as the cicadas, aphids, planthoppers, leafhoppers, assassin bugs, bed bugs, and shield bugs. They range in size from 1 mm (0.04 in) to around 15 cm (6 in), and share a common arrangement of piercing-sucking mouthparts. The name "true bugs" is often limited to the suborder Heteroptera.

<i>Phytoplasma</i> Genus of bacteria

Phytoplasmas are obligate intracellular parasites of plant phloem tissue and of the insect vectors that are involved in their plant-to-plant transmission. Phytoplasmas were discovered in 1967 by Japanese scientists who termed them mycoplasma-like organisms. Since their discovery, phytoplasmas have resisted all attempts at in vitro culture in any cell-free medium; routine cultivation in an artificial medium thus remains a major challenge. Phytoplasmas are characterized by the lack of a cell wall, a pleiomorphic or filamentous shape, a diameter normally less than 1 μm, and a very small genome.

<span class="mw-page-title-main">Plant virus</span> Virus that affects plants

Plant viruses are viruses that affect plants. Like all other viruses, plant viruses are obligate intracellular parasites that do not have the molecular machinery to replicate without a host. Plant viruses can be pathogenic to vascular plants.

<i>Spiroplasma</i> Genus of bacteria

Spiroplasma is a genus of Mollicutes, a group of small bacteria without cell walls. Spiroplasma shares the simple metabolism, parasitic lifestyle, fried-egg colony morphology and small genome of other Mollicutes, but has a distinctive helical morphology, unlike Mycoplasma. It has a spiral shape and moves in a corkscrew motion. Many Spiroplasma are found either in the gut or haemolymph of insects where they can act to manipulate host reproduction, or defend the host as endosymbionts. Spiroplasma are also disease-causing agents in the phloem of plants. Spiroplasmas are fastidious organisms, which require a rich culture medium. Typically they grow well at 30 °C, but not at 37 °C. A few species, notably Spiroplasma mirum, grow well at 37 °C, and cause cataracts and neurological damage in suckling mice. The best studied species of spiroplasmas are Spiroplasma poulsonii, a reproductive manipulator and defensive insect symbiont, Spiroplasma citri, the causative agent of citrus stubborn disease, and Spiroplasma kunkelii, the causative agent of corn stunt disease.

<span class="mw-page-title-main">Glassy-winged sharpshooter</span> Species of leafhopper

The glassy-winged sharpshooter is a large leafhopper, similar to other species of sharpshooter.

Barley yellow dwarf (BYD) is a plant disease caused by the barley yellow dwarf virus (BYDV), and is the most widely distributed viral disease of cereals. It affects the economically important crop species barley, oats, wheat, maize, triticale and rice.

<span class="mw-page-title-main">Leafhopper</span> Family of insects

Leafhopper is the common name for any species from the family Cicadellidae. These minute insects, colloquially known as hoppers, are plant feeders that suck plant sap from grass, shrubs, or trees. Their hind legs are modified for jumping, and are covered with hairs that facilitate the spreading of a secretion over their bodies that acts as a water repellent and carrier of pheromones. They undergo a partial metamorphosis, and have various host associations, varying from very generalized to very specific. Some species have a cosmopolitan distribution, or occur throughout the temperate and tropical regions. Some are pests or vectors of plant viruses and phytoplasmas. The family is distributed all over the world, and constitutes the second-largest hemipteran family, with at least 20,000 described species.

<i>Potato leafroll virus</i> Species of virus

Potato leafroll virus (PLRV) is a member of the genus Polerovirus and family Solemoviridae. The phloem limited positive sense RNA virus infects potatoes and other members of the family Solanaceae. PLRV was first described by Quanjer et al. in 1916. PLRV is transmitted by aphids, primarily the green peach aphid, Myzus persicae. PLRV is one of the most important potato viruses worldwide but particularly devastating in countries with limited resources and management. It can be responsible for individual plant yield losses of over 50%. One estimate suggests that PLRV is responsible for an annual global yield loss of 20 million tons. Symptoms include chlorosis, necrosis and leaf curling.

Citrus tristeza virus (CTV) is a viral species of the genus Closterovirus that causes the most economically damaging disease to its namesake plant genus, Citrus. The disease has led to the death of millions of Citrus trees all over the world and has rendered millions of others useless for production. Farmers in Brazil and other South American countries gave it the name "tristeza", meaning sadness in Portuguese and Spanish, referring to the devastation produced by the disease in the 1930s. The virus is transmitted most efficiently by the brown citrus aphid.

<span class="mw-page-title-main">Beet leafhopper</span> Species of insect

The beet leafhopper, also sometimes known as Neoaliturus tenellus, is a species of leafhopper which belongs to the family Cicadellidae in the order Hemiptera.

<span class="mw-page-title-main">Electrical penetration graph</span>

The electrical penetration graph or EPG is a system used by biologists to study the interaction of insects such as aphids, thrips, and leafhoppers with plants. Therefore, it can also be used to study the basis of plant virus transmission, host plant selection by insects and the way in which insects can find and feed from the phloem of the plant. It is a simple system consisting of a partial circuit which is only completed when a species such as aphids, which are the most abundantly studied, inserts its stylet into the plant in order to probe the plant as a suitable host for feeding. The completed circuit is displayed visually as a graph with different waveforms indicating either different insect activities such as saliva excretion or the ingestion of cellular contents or indicating which tissue type has been penetrated. So far, around ten different graphical waveforms are known, correlating with different insect/plant interaction events.

Potato virus Y (PVY) is a plant pathogenic virus of the family Potyviridae, and one of the most important plant viruses affecting potato production.

<i>Soybean mosaic virus</i> Plant disease

Soybean mosaic virus (SMV) is a member of the plant virus genus Potyvirus. It infects mainly plants belonging to the family Fabaceae but has also been found infecting other economically important crops. SMV is the cause of soybean mosaic disease that occurs in all the soybean production areas of the world. Soybean is one of the most important sources of edible oil and proteins and pathogenic infections are responsible for annual yield losses of about $4 billion in the United States. Among these pathogens, SMV is the most important and prevalent viral pathogen in soybean production worldwide. It causes yield reductions of about 8% to 35%, but losses as high as 94% have been reported.

<i>Myzus persicae</i> Aphid of peach, potato, other crops

Myzus persicae, known as the green peach aphid, greenfly, or the peach-potato aphid, is a small green aphid belonging to the order Hemiptera. It is the most significant aphid pest of peach trees, causing decreased growth, shrivelling of the leaves and the death of various tissues. It also acts as a vector for the transport of plant viruses such as cucumber mosaic virus (CMV), potato virus Y (PVY) and tobacco etch virus (TEV). Potato virus Y and potato leafroll virus can be passed to members of the nightshade/potato family (Solanaceae), and various mosaic viruses to many other food crops.

<span class="mw-page-title-main">Cherry X Disease</span>

Cherry X disease also known as Cherry Buckskin disease is caused by a plant pathogenic phytoplasma. Phytoplasmas are obligate parasites of plants and insects. They are specialized bacteria, characterized by their lack of a cell wall, often transmitted through insects, and are responsible for large losses in crops, fruit trees, and ornamentals. The phytoplasma causing Cherry X disease has a fairly limited host range mostly of stone fruit trees. Hosts of the pathogen include sweet cherry, sour cherry, choke cherry, peaches, nectarines, almonds, clover, and dandelion. Most commonly the pathogen is introduced into economical fruit orchards from wild choke cherry and herbaceous weed hosts. The pathogen is vectored by mountain and cherry leafhoppers. The mountain leafhopper vectors the pathogen from wild hosts to cherry orchards but does not feed on the other hosts. The cherry leafhopper feeds on cherry trees and can transmit the disease from cherry orchards to peach, nectarine, and other economic crops. The Saddled Leafhopper is a vector of the disease in peaches. Control of Cherry X disease is limited to controlling the spread, vectors, and weed hosts of the pathogen. Once the pathogen has infected a tree it is fatal and removal is necessary to stop it from becoming a reservoir for vectors.

<span class="mw-page-title-main">Corn stunt disease</span> Bacterial plant disease

Corn stunt disease is a bacterial disease of corn and other grasses. Symptoms include stunted growth and leaves turning red. It is caused by the bacterium Spiroplasma kunkelii.

<i>Carnation Italian ringspot virus</i> Plant virus impacting carnation plants

Carnation Italian Ringspot Virus (CIRV) is a plant virus that impacts carnation plants. These flowers are a popular choice in ornamental flower arrangements. This article will provide an overview of CIRV. This will include the history of the virus, information on transmission, symptoms, and characteristics, and research about how it relates to plant physiology.

<span class="mw-page-title-main">Sophien Kamoun</span> Tunisian biologist and geneticist

Sophien Kamoun is a Tunisian biologist. He is a senior scientist at the Sainsbury Laboratory and professor of biology at the University of East Anglia (UEA). Kamoun is known for contributions to our understanding of plant diseases and plant immunity.

Vertical transmission of symbionts is the transfer of a microbial symbiont from the parent directly to the offspring. Many metazoan species carry symbiotic bacteria which play a mutualistic, commensal, or parasitic role. A symbiont is acquired by a host via horizontal, vertical, or mixed transmission.

References

  1. 1 2 Hogenhout, Saskia A. (1999). The molecular basis of the interactions between luteoviruses and their aphid vectors. wurl.nl (PhD thesis). Wageningen University. OCLC   905501396.
  2. 1 2 3 Saskia Hogenhout publications indexed by Google Scholar OOjs UI icon edit-ltr-progressive.svg
  3. 1 2 Amsterdam, Universiteit van (2018-11-12). "Saskia Hogenhout, professor by special appointment of Molecular Plant-Microbe-Insect Interactions - University of Amsterdam". University of Amsterdam . Retrieved 2019-12-14.
  4. 1 2 Saskia Hogenhout publications from Europe PubMed Central
  5. Saskia A Hogenhout; El-Desouky Ammar; Anna E Whitfield; Margaret G Redinbaugh (1 January 2008). "Insect vector interactions with persistently transmitted viruses". Annual Review of Phytopathology . 46: 327–359. doi:10.1146/ANNUREV.PHYTO.022508.092135. ISSN   0066-4286. PMID   18680428. Wikidata   Q37235297.
  6. "Saskia Hogenhout | B·DEBATE". bdebate.org. Retrieved 2019-12-14.
  7. "Professor Saskia Hogenhout". John Innes Centre. 2018-11-29. Retrieved 2019-12-14.
  8. "Scientists discover the secret behind zombie plants". Engadget. 19 July 2019. Retrieved 2019-12-14.
  9. Kluiters, Georgette (2016-12-16). "Vector-Borne Diseases in the UK – Biennial Conference 2016". BioMed Central. Retrieved 2019-12-14.
  10. "Uncovering the Secrets of a Successful Pest". The Scientist Magazine®. Retrieved 2019-12-14.
  11. "How to be a successful pest: Lessons from the green peach aphid". ScienceDaily. Retrieved 2019-12-14.
  12. "Plants use calcium to convey internal warning of attacking aphids". phys.org. Retrieved 2019-12-14.
  13. Saskia A Hogenhout; Renier van der Hoorn; Ryohei Terauchi; Sophien Kamoun (1 February 2009). "Emerging concepts in effector biology of plant-associated organisms". Molecular Plant-Microbe Interactions. 22 (2): 115–122. doi:10.1094/MPMI-22-2-0115. ISSN   0894-0282. PMID   19132864. Wikidata   Q37365393.
  14. Hill, Chris (5 December 2018). "Norwich scientists will lead £4.85m project to battle one of the world's most dangerous plant diseases". Eastern Daily Press. Retrieved 2019-12-14.
  15. Anon. "Professor Saskia Hogenhout FRS". royalsociety.org. London: Royal Society . Retrieved 2024-05-20.


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