Difference between revisions of "Hypsibius dujardini"

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==Life Cycle and Survival==
 
==Life Cycle and Survival==
 
Interesting features of cell structure; how it gains energy; what important molecules it produces.
 
Interesting features of cell structure; how it gains energy; what important molecules it produces.
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===Reproduction and Development===
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There is no known information on the mating habits of ''H. dujardini'', but sexual reproduction is often undergone as there are usually both male and females in a population. However, when sexual reproduction is not a viable way to produce offspring, meiotic parthenogenesis can occur. This is when a haploid egg returns to diploid through the duplication of chromosomes. Molting (shedding of claws, waxy cuticle, and hindgut) occurs throughout the lifetime of ''H. dujardini'', approximately 4-12 times and can take between 5-10 days to complete each time, and is an important part of reproduction. Females can lay between 3-4 eggs on average each reproductive cycle and will lay these eggs in the shed from their molt to undergo development for 4-4.5 days before hatching. It has been found though that eggs developed in a laboratory take 13-14 days to hatch.
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===Survival abilities===
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[[File:Hdujardinianhydrobiosis.jpg|thumb|''H. dujardini'' in normal state compared to desiccated state]]
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The survival ability of ''H. dujardini'' is due to their incredibly effective environment stress response of undergoing cryptobiosis (more specifically known as, and driven by, anhydrobiosis) and induced by desiccation when conditions become unfavourable. Anhydrobiosis is when they become ametabolic and dehydrated to survive extreme environmental stressors until the conditions become favourable again and they come into contact with water which the stimulates desiccation emergence. They can survive in this state for varying lengths of time, with a 120 year old, unidentified species of tardigrade was observed going through desiccation emergence when some moss was rehydrated.
  
 
==Ecology and Pathogenesis==
 
==Ecology and Pathogenesis==

Revision as of 15:57, 28 April 2020

This student page has not been curated.

Classification

caption

Higher Order Taxa

Domain: Eukarya

Phylum: Tardigrada

Class: Eutardigrada

Order: Parachaela

Family: Hypsibiidae


Species

NCBI: [1] MAKE LINK WORK FOR THIS

Hypsibius dujardini

Discovery of Tardigrades

Tardigrades were discovered first in 1773 by German zoologist Johann August Ephraim Goeze and named them little water bears. Later, in 1777, they were renamed Tardigrada by Italian biologist Lazzaro Spallanzani. This new name carried the meaning slow steppers.

Description and Significance

Comparison of appearances between Hypsibius dujardini, Echiniscus virginicus, and Isohypsibius lunulatus
Appearance of H. dujardini AISMs

H. dujardini is a freshwater species of Tardigrade (also known as water bears) found in the algae and sediments of rivers, streams, and lakes, and is cosmopolitan in nature, being found in many different environments around the world. They have been found to survive in a multitude of environments and are one of the most resilient animals on Earth, placing them in the category of extremophiles. They have the ability to survive in extreme high and low temperatures, extreme high and low pressures, deprivation of air, starvation, dehydration, radiation, and have even been found to survive in outer space. Geographically, they have been found in the Palearctic, Neotropical, Nearctic, Afrotropical, Antarctic, and Indomalaya regions, and are the most commonly found tardigrade in the Nearctic region.

Appearance

H. dujardini are approximately 0.50mm in length and have long, plump bodies with 8 legs, with claws on the end of each, lined symmetrically down the length of their bodies. To distinguish H. dujardini from other species of tardigrade there are three main features to observe:

  1. There are eight morphologically different claw sets used when comparing tardigrades to determine its species. For H. dujardini, their claws are two branched that differ in length and face opposite each other within each pair.
  2. Their apophyses for the insertion of the stylet muscles (AISMs) appear to be more hooked.
  3. Their waxy cuticle is much smoother in appearance compared to other tardigrade species

Additionally, females often appear to be larger than the males.

Significance

H. dujardini is one of the best studied species of tardigrade and has been important to use as a model for studying the evolution of development. Additionally, they have been used in a study that observes the effect of taking away a geomagnetic field on the mortality rate of H. dujardini. This study addresses the question of terrestrial organisms having the ability to travel through space and colonise on new planets, including organisms from Earth.

Genome Structure

There have been three genome assemblies for H. dujardini where they were able to determine that the median total genome length is 182.155 Mb, the median total protein count for their genome is 20853, and the median GC% for the genome is 44.5.

Life Cycle and Survival

Interesting features of cell structure; how it gains energy; what important molecules it produces.

Reproduction and Development

There is no known information on the mating habits of H. dujardini, but sexual reproduction is often undergone as there are usually both male and females in a population. However, when sexual reproduction is not a viable way to produce offspring, meiotic parthenogenesis can occur. This is when a haploid egg returns to diploid through the duplication of chromosomes. Molting (shedding of claws, waxy cuticle, and hindgut) occurs throughout the lifetime of H. dujardini, approximately 4-12 times and can take between 5-10 days to complete each time, and is an important part of reproduction. Females can lay between 3-4 eggs on average each reproductive cycle and will lay these eggs in the shed from their molt to undergo development for 4-4.5 days before hatching. It has been found though that eggs developed in a laboratory take 13-14 days to hatch.

Survival abilities

H. dujardini in normal state compared to desiccated state

The survival ability of H. dujardini is due to their incredibly effective environment stress response of undergoing cryptobiosis (more specifically known as, and driven by, anhydrobiosis) and induced by desiccation when conditions become unfavourable. Anhydrobiosis is when they become ametabolic and dehydrated to survive extreme environmental stressors until the conditions become favourable again and they come into contact with water which the stimulates desiccation emergence. They can survive in this state for varying lengths of time, with a 120 year old, unidentified species of tardigrade was observed going through desiccation emergence when some moss was rehydrated.

Ecology and Pathogenesis

Habitat; symbiosis; biogeochemical significance; contributions to environment.
If relevant, how does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.

References

[Sample reference] Takai, K., Sugai, A., Itoh, T., and Horikoshi, K. "Palaeococcus ferrophilus gen. nov., sp. nov., a barophilic, hyperthermophilic archaeon from a deep-sea hydrothermal vent chimney". International Journal of Systematic and Evolutionary Microbiology. 2000. Volume 50. p. 489-500.

Author

Page authored by Rosie Munro, student of Prof. Jay Lennon at IndianaUniversity.