Ricin chemical structure

CWAs are represented by any one of a number of chemicals exhibiting a very high toxicity by various mechanisms. The present Handbook exhibits CWAs with structures as simple as carbon monoxide (CO) and as complex as botulinum toxin or ricin proteins. While this chapter could address the development of PBPK models of CWAs in general, the focus will primarily be on the organophosphate (OP)-based nerve agents typically represented by sarin (GB - isopropyl methylfluoro-phosphonate). 

Chemical Abstracts Service Registry Number CAS 1393-62-0. Abrin is a toxalbumin similar in structure, absorption, and mechanism of action to ricin but is found not in castor beans but rather in jequirity beans. No reports of its use as a battlefield or terrorist agent exist, but in mice it is 75 times more potent than ricin. No specific treatment is available. Both ricin and abrin are type 2 ribosomal inhibitory proteins (RIPs) the other potent toxins in this class are Eranthis hyemalis lectin (EHL) from winter aconite, modeccin and volkensin from African succulents, and viscumin from mistletoe. 

Abrin is a plant toxin, which is closely related to ricin in terms of its structure and chemical properties. It is obtained from the seeds of Abrus pre-catorius (commonly known as jequirity bean or rosary pea ), a tropical vine cultivated as an ornamental plant in many locations. Jequirity beans are usually scarlet in colour with a black spot at one end (though less common different coloured varieties exist) and are approximately 3x8 mm in size. 

In Chapter 1, the structure, synthesis and toxicity of ricin, a protein present in the endosperm cells of the seeds of the castor oil plant, are described and possible uses of this toxic agent in immunology as conjugates with antibodies are discussed. The biochemical and pharmacological evidence for the presence of functional histamine receptors in the mammalian central nervous system is set out in Chapter 2. Chapter 3 covers the chemical properties of molybdenum-containing enzymes such as aldehyde oxidase and xanthine oxidase, although their physiological roles are by no means clear. 

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