Top 10 similar words or synonyms for cryptogea

drechsleri    0.892348

cactorum    0.865625

citrophthora    0.865370

genenoneinsect    0.865161

transgenerust    0.865046

alfalfae    0.864147

medicaginis    0.863744

arachidis    0.862446

altemaria    0.860101

galligena    0.857199

Top 30 analogous words or synonyms for cryptogea

Article Example
Phytophthora cryptogea Phytophthora cryptogea is a species of water mould in the family Pythiaceae. It is a plant pathogen that infects several species of cultivated plants, including over 40 species of cultivated flowers.
Phytophthora cryptogea This species is reported to be pathogenic on grandiflora petunia ("Petunia" × "atkinsiana"). It causes root rot, shoot rot and shanking in tulips. It also infects blue daze ("Evolvulus glomeratus"), dusty miller ("Senecio cineraria"), Barberton daisy ("Gerbera jamesonii"), and garden verbena ("Verbena" × "hybrida"). Like its relative "Phytophtora cambivora", it can cause ink disease of chestnuts ("Castanea sativa").
Phytophthora cryptogea This and "Phytophthora drechsleri" have been considered the same species, but phylogenetic analysis has revealed that they are two distinct species.
Aspergillus clavatus Weisner in March, 1942 first noted the production of an antibiotic by strains of "A. clavatus", and the active substance was known as "clavatin." Later the antibiotic was named "clavacin" in August, 1942 by Waksman, Horning and Spencer. Clavacin is also known as patulin. Patulin is receiving significant attention in the world today because of its manifestations in apple juices. Clavacin was noted to be valuable in the treatment of common-cold and applies a fungistatic or fungicidal effect on certain dermatophytes. "A. clavatus" with "Phytophthora cryptogea" in soil provided protection against damping of tomato seedlings, by decreasing the spreading of pathogens. Reversely, "A. clavatus" with the addition of glucose, increased the pathogenicity of "Verticillium albo-atrum" to tomatoes. "A. clavatus" also produces the following: Cytochalasin E, Cytochalasin K, Tryptoquivaline, Nortryptoquivalone, Nortryptoquivaline, Deoxytryptoquivaline, Deoxynortryptoquivaline, Tryptoquivaline E, and Tryptoquivaline N. Furthermore, "A. clavatus" isolates produce ribotoxins, which can help develop immunotherapy processes for cancer. "A.clavatus" has also been used in the formation of extracellular bionanoparticles from silver nitrate solutions. These nanoparticles display antimicrobial properties, which work against MRSA and MRSE.