1 / 9

Sulfa Drug Group Project

Sulfa Drug Group Project. Chemistry 258 Loyd D. Bastin. Brief History. 1932-I.G. Farben (dye company in Germany). 1933-Prontosil used against staphylococcal septicemia (blood infection) 1935-Gerhard Domagk Prontosil cured streptococcal infections in mice and rabbits

chaka
Télécharger la présentation

Sulfa Drug Group Project

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Sulfa Drug Group Project Chemistry 258 Loyd D. Bastin

  2. Brief History • 1932-I.G. Farben (dye company in Germany) • 1933-Prontosil used against staphylococcal septicemia (blood infection) • 1935-Gerhard Domagk • Prontosil cured streptococcal infections in mice and rabbits • Later shown to have an even broader application • 1939-Domagk earned Nobel Prize in medicine • Hitler did not allow him to accept • Was later awarded the prize

  3. More History • 1935-J. Tréfouël • In vivo (in animals) prontosil effective • In vitro (petri dish) prontosil ineffective WHY? • Tréfouël showed that prontosil was metabolized to sulfanilamide in the body • Sulfanilamide shown to have in vivo and in vitro activity • Led to an explosion in the synthesis of sulfanilamide analogs • Became the wonder drug of the 30s and early 40s (referred to as sulfa drugs)

  4. A Little More History • 1929-Alexander Fleming discovers Penicillin G • 1941-Penicillin G shown to be successful antibacterial agent in humans • Leads to a decline in use of sulfa drugs • However, sulfa drugs are still used for malaria, tuberculosis, leprosy, meningitus, pneumonia, scarlet fever, plague, respiratory, infections, and intestinal/urinary tract infections

  5. Synthesis

  6. Your Task • Groups of 3 or 4 • Select groups • Weekly group meetings with instructor to discuss your progress and future plans • You are a team and it is your job to work together and synthesize the appropriate number of sulfa drugs. • Choose the R groups and synthesize 3 (or 4) different sulfanilamide analogs. • Group of 3 – synthesize 3 different sulfanilamide analogs • Group of 4 – synthesize 4 different sulfanilamide analogs • Design a “greener” method for one of your group C sulfanilamide analogs • If you change your plan, it must be submitted in writing and signed by all group members. • You MUST prove the identity and purity of your compound using mp, 1H-NMR, IR, and/or TLC to receive full credit • We will do1H-NMR once you have purified your product. • Finally, you will test the antibacterial activity of your drugs against E. coli.

  7. Your Task Continued • Here are your possible R groups • It is your job to make the synthesis work. Use the procedures in the lab manualas GUIDELINES. Modifications may/will be necessary. Could be as simple as changing T and/or solvent, or it could require some research on your part. Use your time wisely and multi-task. • Your group must submit IN WRITING during the first lab meeting, which molecules you plan to synthesize, 2-3 procedures that the group will initially dry, and a list of IR peaks you will use to indicate if a reaction occurred. If you have trouble with compounds from Groups B or C, you can update your target molecules and methods. However, you can NOT upgrade your target group after the firstlab meeting. We want to be GREEN.

  8. Rough Schedule Week 1 Groups must submit in writing within the first 1.5 hours of the 1st lab meeting. • List of Group Members • Amines to be used initially and reasoning behind those choices • 2-3 procedures that the group will try initially and the reasoning behind those choices • List of IR peaks that your group will use to indicate if a reaction has occurred. Weeks 1, 2, and 3 Work on step 1. Group meetings Week 4 Work on hydrolysis step. Group meetings Weeks 5 and 6 Work on greener method. Group meetings Week 7 Test antibacterial activity of sulfa drugs. Finish any characterization

  9. Final Report • Each group will submit ONE report. • Each member will submit a peer evaluation sheet for each member of their group The written lab report 60 pts (total possible) Successful synthesis of drug from group A: 4 pts Successful synthesis of drug from group B: 8 pts Successful synthesis of drug from group C: 12 pts Successful “greener” synthesis of a sulfa drug: 12 pts Peer evaluation of group work: 8 pts Instructor evaluation of group work: 4 pts Total points for the report 120 points Examples: The total points possible for doing an amine from group A and 2 amines from group C and devising a greener method would be 112 points (60 + 4 + 12 +12 + 12 + 8 + 4). Total possible for doing 3 amines from group A and devising a greener method would be 96 points (60 + 4 + 4 + 4 + 4 + 8 + 4). • For details please see pg. 181 in the lab manual and then ask me if you have any questions.

More Related