linkedin post 2015-09-12 05:45:23

Uncategorized
PLANT INNATE IMMUNE SYSTEM. "Plants are constantly interpreting microbial signals from potential pathogens and potential commensals or mutualists. Because plants have no circulating cells dedicated to this task, every plant cell must, in principle, recognize any microbe as friend, foe, or irrelevant bystander." https://lnkd.in/eNmVQSu View in LinkedIn
Read More

linkedin post 2015-09-12 05:52:19

Uncategorized
NOD-LIKE RECEPTORS (NLRs) and homologous Toll-Like Receptors (TLRs) are a family of key innate immune system pathogen pathogen recognition molecules common to both plants and higher animals including man. In man, they are also involved in wound healing. You thought you were so different from a plant? https://lnkd.in/eFus3n9 View in LinkedIn
Read More

linkedin post 2015-09-12 05:56:10

Uncategorized
ANCIENT IMMUNE SYSTEM. "The fact that the earth’s surface is covered with more species of invertebrates and plants than vertebrates speaks to the success of innate immune systems." Plants only have an innate immune system, while vertebrates layered in a second adaptive immune system on this shared ancient defense mechanism. https://lnkd.in/ee_yTe4 View in LinkedIn
Read More

linkedin post 2015-09-12 06:01:10

Uncategorized
"INNATE IMMUNITY is an evolutionarily ancient part of the host defense mechanisms: the same molecular modules are found in plants and animals, meaning that it arose before the split into these two kingdoms. Adaptive immunity is a relative newcomer on the evolutionary landscape." Adaptive immunity only exists in higher animals. https://lnkd.in/ee_yTe4 View in LinkedIn
Read More

linkedin post 2015-09-12 06:07:35

Uncategorized
IN HIGHER ANIMALS, "innate immunity also lies behind most inflammatory responses; these are triggered in the first instance by macrophages, polymorphonuclear leukocytes, and mast cells through their innate immune receptors." Plants do not have this overlaid molecular and cellular machinery, but do share the innate receptors. https://lnkd.in/ee_yTe4 View in LinkedIn
Read More

linkedin post 2015-09-12 06:12:16

Uncategorized
CROSS-KINGDOM PATTERNS. "When first isolated 20 years ago, it was surprising to find that structurally similar NLRs could individually confer resistance to strains of plant pathogens from all kingdoms—insects, fungi, oomycetes, bacteria, and viruses." (NOD-like receptors). https://lnkd.in/eNmVQSu View in LinkedIn
Read More

linkedin post 2015-09-13 04:23:56

Uncategorized
FOE RECOGNITION. "Despite being sessile organisms constantly exposed to potential pathogens and pests, plants are surprisingly resilient to infections. Plants can detect invaders via the recognition of pathogen-associated molecular patterns (PAMPs) by pattern recognition receptors (PRRs)." https://lnkd.in/eRdhX_N View in LinkedIn
Read More