Antibiotic 67-121B
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Category | Antibiotics |
Catalog number | BBF-02997 |
CAS | 57515-51-2 |
Molecular Weight | 1115.30 |
Molecular Formula | C58H86N2O19 |
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Description
It is a heptaene macrolide antibiotic produced by the strain of Actinoplanes caeruleus. It has anti-fungal and yeast activity.
Specification
Synonyms | Hamycin A; Primamycin; 67-121B |
IUPAC Name | (19E,21E,23E,25E,27E,29E,31E)-33-[(2S,3R,4R,5R,6S)-4-amino-3,5-dihydroxy-6-methyloxan-2-yl]oxy-17-[7-(4-aminophenyl)-5-hydroxy-7-oxoheptan-2-yl]-1,3,5,7,9,11,13,37-octahydroxy-18-methyl-15-oxo-16,39-dioxabicyclo[33.3.1]nonatriaconta-19,21,23,25,27,29,31-heptaene-36-carboxylic acid |
Canonical SMILES | CC1C=CC=CC=CC=CC=CC=CC=CC(CC2C(C(CC(O2)(CC(CC(CC(CC(CC(CC(CC(=O)OC1C(C)CCC(CC(=O)C3=CC=C(C=C3)N)O)O)O)O)O)O)O)O)O)C(=O)O)OC4C(C(C(C(O4)C)O)N)O |
InChI | InChI=1S/C58H86N2O19/c1-34-16-14-12-10-8-6-4-5-7-9-11-13-15-17-46(77-57-54(72)52(60)53(71)36(3)76-57)31-49-51(56(73)74)48(69)33-58(75,79-49)32-45(67)28-43(65)26-41(63)24-40(62)25-42(64)27-44(66)30-50(70)78-55(34)35(2)18-23-39(61)29-47(68)37-19-21-38(59)22-20-37/h4-17,19-22,34-36,39-46,48-49,51-55,57,61-67,69,71-72,75H,18,23-33,59-60H2,1-3H3,(H,73,74)/b5-4+,8-6+,9-7+,12-10+,13-11+,16-14+,17-15+/t34?,35?,36-,39?,40?,41?,42?,43?,44?,45?,46?,48?,49?,51?,52+,53-,54+,55?,57+,58?/m0/s1 |
InChI Key | YWMQXTANYPOPRI-XOLLPSOESA-N |
Properties
Appearance | Yellow Acicular Crystal |
Antibiotic Activity Spectrum | Fungi; Yeast |
Melting Point | 175-182°C (dec.) |
Solubility | Soluble in DMF |
Reference Reading
1. Antibiotics and Antibiotic Resistance- Flipsides of the Same Coin
Sonali Bhardwaj, Parul Mehra, Daljeet Singh Dhanjal, Parvarish Sharma, Varun Sharma, Reena Singh, Eugenie Nepovimova, Chirag Chopra, Kamil Kuča Curr Pharm Des. 2022;28(28):2312-2329. doi: 10.2174/1381612828666220608120238.
One of the major global health care crises in the 21st century is antibiotic resistance. Almost all clinically used antibiotics have resistance emerging to them. Antibiotic Resistance can be regarded as the 'Faceless Pandemic' that has enthralled the entire world. It has become peremptory to develop treatment options as an alternative to antibiotic therapy for combating antibiotic-resistant pathogens. A clearer understanding of antibiotic resistance is required to prevent the rapid spread of antibiotic-resistant genes and the re-emergence of infections. The present review provides an insight into the different classifications and modes of action of antibiotics to understand how the hosts develop resistance to them. In addition, the association of genetics in the development of antibiotic resistance and environmental factors has also been discussed, emphasizing developing action plans to counter this "quiescent pandemic". It is also pertinent to create models that can predict the early resistance so that treatment strategies may build up in advance with the evolving resistance.
2. Antibiotic prophylaxis in orthopedics-traumatology
Jeannot Gaudias Orthop Traumatol Surg Res. 2021 Feb;107(1S):102751. doi: 10.1016/j.otsr.2020.102751. Epub 2020 Dec 11.
When all rules of hygiene have been scrupulously applied, antibiotic prophylaxis (ABP) is the one remaining means of further reducing surgical site infection risk. Its efficacy in major orthopedic surgical procedures is proven. Guidelines for indications and ABP systemic administration have been long established and are able to address many questions. By extrapolation, the same protocols apply in closed fractures, whereas they are less certain in open fractures, where successive and still incomplete reassessments have been made. There are no specific ABP protocols in implant revision for mechanical or infectious causes or in high-grade open fractures, despite the high associated risk of surgical site infection. All means of prophylaxis need exploring in these contexts: various molecule combinations, and various local applications. Although ideas are by no means lacking, levels of evidence are low or undetermined. Awaiting more objective data, the focus has to be on the quality of implementation. It is easy enough to conceive of ABP in terms of the tissue pharmacokinetics of the antibiotic(s), but real-life implementation is a real organizational challenge. Optimizing practices in clearly defined indications is still the prime objective for surgical ABP.
3. Antibiotics: From the Beginning to the Future: Part 2
Nancy Khardori, Cecilia Stevaux, Kathryn Ripley Indian J Pediatr. 2020 Jan;87(1):43-47. doi: 10.1007/s12098-019-03113-0. Epub 2019 Dec 5.
We read, write, and discuss the option of adding new agents to the armamentarium of antibiotic therapy very frequently. However, the past and present has taught us that resistance is likely to develop to any and all kinds of antibiotics. Here we start with an overview of potential future antibiotics from novel sources and targets that may circumvent most known resistance mechanisms. The other future options for antibiotic discovery include antibiotic hybridization, harvesting, and modifying natural antimicrobial peptides from eukaryote and prokaryote organisms. Non bacteriostatic and bactericidal agents that have the potential of becoming therapeutic agents include bacterial attachment inhibitors, bacteriophages, and live microbial vectors. In this review, we have incorporated all the possible avenues that might be useful in the future. However, none is more important than relearning the judicious use of antibiotics based on microbiology, pharmacology, and genetics.
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Bio Calculators
* Our calculator is based on the following equation:
Concentration (start) x Volume (start) = Concentration (final) x Volume (final)
It is commonly abbreviated as: C1V1 = C2V2
* Total Molecular Weight:
g/mol
Tip: Chemical formula is case sensitive. C22H30N4O √ c22h30n40 ╳