Venturia inaequalis: Difference between revisions

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Even though V. inaequalis infection cycle starts in the springtime, V. inaequalis was stored in fallen fruits or leaves as immature pseudothecia during the winter. In the winter, sexual reproduction takes place; aeciospores are produced and are able to release in rainy springtime.  When Venturia inaequalis contact the surface of the plants, a germ tube is form and it penetrates the surface. Between the cuticle and epidermal tissue, a fungal mycelium is formed.  Venturia inaequalis then develop asexually to new generation of conidial spores and germinate the tree.  The secondary infection keeps on going throughout the summer and stop when leaves and fruit fall from the host tree.   
Even though V. inaequalis infection cycle starts in the springtime, V. inaequalis was stored in fallen fruits or leaves as immature pseudothecia during the winter. In the winter, sexual reproduction takes place; aeciospores are produced and are able to release in rainy springtime.  When Venturia inaequalis contact the surface of the plants, a germ tube is form and it penetrates the surface. Between the cuticle and epidermal tissue, a fungal mycelium is formed.  Venturia inaequalis then develop asexually to new generation of conidial spores and germinate the tree.  The secondary infection keeps on going throughout the summer and stop when leaves and fruit fall from the host tree.   


==Application to Biotechnology==
==Application to Biotechnology
== =='''
 
Localized Melanization of Appressoria Is Required for Pathogenicity of Venturia inaequalis''' ==


==Current Research=='''
Localized Melanization of Appressoria Is Required for Pathogenicity of Venturia inaequalis'''
This paper investigates the path that Venturia inaequalis infect apple trees.  The formation of appressoria is required for Venturia inaequalis o form a melanized appressorial ring structure (MARS)to attach to the leaf surface to form a fugus-plant like interface.  Such a process is believed to be required for Venturia inaequalis to penetrate the cuticle.
This paper investigates the path that Venturia inaequalis infect apple trees.  The formation of appressoria is required for Venturia inaequalis o form a melanized appressorial ring structure (MARS)to attach to the leaf surface to form a fugus-plant like interface.  Such a process is believed to be required for Venturia inaequalis to penetrate the cuticle.



Revision as of 20:25, 13 May 2009

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Description and significance

Venturia inaequalis is type of fungi that causes plant disease. Spring is the time V. inaequalis starts its life cycle. During springtime, V. inaequalis spores spread out into the air and attack the apple tree by penetrating apple’s waxy cuticle to cause scab. V. inaequalis is typical apple scab pathogene. V. inaequalis has seven haploid chromosome.


Genome structure

Cell structure and metabolism

Ecology

Natural Host: V. inaequalis is parasitic to apple tree and other closely related species

Pathology

How does V. inaequalis life cycle parasite to plants Even though V. inaequalis infection cycle starts in the springtime, V. inaequalis was stored in fallen fruits or leaves as immature pseudothecia during the winter. In the winter, sexual reproduction takes place; aeciospores are produced and are able to release in rainy springtime. When Venturia inaequalis contact the surface of the plants, a germ tube is form and it penetrates the surface. Between the cuticle and epidermal tissue, a fungal mycelium is formed. Venturia inaequalis then develop asexually to new generation of conidial spores and germinate the tree. The secondary infection keeps on going throughout the summer and stop when leaves and fruit fall from the host tree.

==Application to Biotechnology == ==

Localized Melanization of Appressoria Is Required for Pathogenicity of Venturia inaequalis ==

This paper investigates the path that Venturia inaequalis infect apple trees. The formation of appressoria is required for Venturia inaequalis o form a melanized appressorial ring structure (MARS)to attach to the leaf surface to form a fugus-plant like interface. Such a process is believed to be required for Venturia inaequalis to penetrate the cuticle.

References

Fungal Disease Apple scab Venturia inaequalis (http://urbanext.illinois.edu/hortanswers/detailproblem.cfm?PathogenID=3) Venturia inaequalis(http://dic.academic.ru/dic.nsf/enwiki/2637769)