Dopamine transporters of bovine and rat striata were identified by their specific [3H]cocaine binding and cocaine-sensitive [3H]dopamine [( 3H]DA) uptake. Both binding and uptake functions of bovine striatal transporters were potentiated by lectins. Concanavalin A (Con A) increased the velocity but did not change the affinity of the transporter for DA; however, it increased its affinity for cocaine without changing the number of binding sites. This suggests that the DA transporter is a glycoprotein and that Con A action on it produces conformational changes. Inorganic and organic mercury reagents inhibited both [3H]DA uptake and [3H]cocaine binding, though they were all more potent inhibitors of the former. n-Ethylmaleimide inhibited [3H]DA uptake totally but [3H]cocaine binding only partially. Also, n-pyrene maleimide had differential effects on uptake and binding, inhibiting uptake and potentiating binding. [3H]DA uptake was not affected by mercaptoethanol up to 100 mM, whereas [3H]cocaine binding was inhibited by concentrations above 10 mM. On the other hand, both uptake and binding were fairly sensitive to dimercaprol (less than 1 mM). The effects of all these sulfhydryl reagents suggest that the DA transporter has one or more thiol group(s) important for both binding and uptake activities. The Ellman reagent and dithiopyridine were effective inhibitors of uptake and binding only at fairly high concentration (greater than 10 mM). Loss of activity after treatment with the dithio reagents may be a result of reduction of a disulfide bond, which may affect the transporter conformation.
Rapid-cycling fast plants (Brassica rapa;RCBr) is also known as Wisconsin Fast Plant and is widely used in K-12 and undergraduate studies. RCBr has a short generation time (seed-to-seed in 30-60 days), which allows for the completion of experiments in a semester. Previous studies have shown that cotyledonary explants with attached petioles are capable of generating shoots. However, there is no published adventitious shoot regeneration protocol to date. Sterile cotyledonary explants were excised; all edges and petioles were removed. Five-day-old cotyledonary explants produced shoots on a Murashige and Skoog medium containing 1.5 mg/L thiadiazuron (TDZ) and 0.5 mg/L 1-naphthaleneacetic acid (NAA) (FPM I) at a mean rate of 8.8%. This rate increased to 14.8% in explants placed on FPM I medium supplemented with 5.0 mg/L silver nitrate (AgNO 3 ) (SRM 2). The rate increased to 32.5% when 5-day-old explants, excised from the part of the cotyledon nearest to the petiole, were placed adaxial side up on SRM 2 medium. The shoot regeneration rate increased to 44.5% using 4-day-old cotyledonary explants. A shoot regeneration rate of 23% was observed among 9-day-old leaf explants. Shoots from cotyledonary explants were elongated on basal medium with 0.5 mg/L NAA, rooted on basal medium, and later acclimatized. This is the first report of shoot regeneration from cotyledonary explants of rapid-cycling Brassica rapa without pre-existing meristematic tissues.
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