L-2,5-Dihydrophenylalanine
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| Category | Bioactive by-products |
| Catalog number | BBF-01412 |
| CAS | 16055-12-2 |
| Molecular Weight | 167.20 |
| Molecular Formula | C9H13NO2 |
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Description
It is produced by the strain of Streptomyces sp. L-2,5-Dihydrophenylalanine can cause apoptosis of HL-60 in human myeloblastoid leukemia cells.
Specification
| Synonyms | 2,5-Dihydrophenylalanine; 2,5-dihydrophenyl-L-alanine; L-3-(2,5-Cyclohexadienyl)alanine |
| IUPAC Name | (2S)-2-amino-3-cyclohexa-1,4-dien-1-ylpropanoic acid |
| Canonical SMILES | C1C=CCC(=C1)CC(C(=O)O)N |
| InChI | InChI=1S/C9H13NO2/c10-8(9(11)12)6-7-4-2-1-3-5-7/h1-2,5,8H,3-4,6,10H2,(H,11,12)/t8-/m0/s1 |
| InChI Key | FSZMHEMPLAVBQZ-QMMMGPOBSA-N |
Properties
| Antibiotic Activity Spectrum | neoplastics (Tumor) |
| Boiling Point | 315.9°C at 760 mmHg |
| Density | 1.146 g/cm3 |
Reference Reading
1. L-2,5-dihydrophenylalanine, an inducer of cathepsin-dependent apoptosis in human promyelocytic leukemia cells (HL-60)
T Kiso, Y Usuki, X Ping, K Fujita, M Taniguchi J Antibiot (Tokyo). 2001 Oct;54(10):810-7. doi: 10.7164/antibiotics.54.810.
L-2,5-Dihydrophenylalanine (DHPA), a phenylalanine analogue, induced apoptosis in human promyelocytic leukemia cells (HL-60). This apoptosis was demonstrated by morphological changes of the cells, such as fragmentation of nuclei and chromatin condensation, and by some evidence found in biochemical analysis, such as DNA ladder and activation of caspase 3. The DHPA-induced apoptosis was prevented by a pan-caspase inhibitor, Z-VAD-fmk, and a cysteine protease inhibitor, E-64d, which inhibits calpains and cathepsin B and L. A calpain inhibitor, Z-LL-H, did not affect this apoptosis. A cathepsin B specific inhibitor, CA074-Me, prevented only chromatin condensation. However, E-64d and a cathepsin L specific inhibitor, Z-FY(t-Bu)-dmk, protected the cells from both chromatin condensation and oligonucleosomal DNA fragmentation. As proceeding to the apoptotic process, the activities of both cathepsin B and L increased gradually. These results indicated that DHPA was an inducer of cathepsin-dependent apoptosis in HL-60 cells.
2. Screening for microtubule-disrupting antifungal agents by using a mitotic-arrest mutant of Aspergillus nidulans and novel action of phenylalanine derivatives accompanying tubulin loss
Tetsuo Kiso, Ken-Ichi Fujita, Xu Ping, Toshio Tanaka, Makoto Taniguchi Antimicrob Agents Chemother. 2004 May;48(5):1739-48. doi: 10.1128/AAC.48.5.1739-1748.2004.
The microtubule, which is one of the major targets of anthelmintics, anticancer drugs, and fungicides, is composed mainly of alpha- and beta-tubulins. We focused on a unique characteristic of an Aspergillus nidulans benA33 mutant to screen for microtubule-disrupting antifungal agents. This mutant, which has a beta-tubulin with a mutation of a single amino acid, undergoes mitotic arrest due to the formation of hyperstable microtubules at 37 degrees C. The heat sensitivity of the mutant is remedied by some antimicrotubule agents. We found that an agar plate assay with the mutant was able to distinguish three types of microtubule inhibitors. The growth recovery zones of the mutant were formed around paper disks containing microtubule inhibitors, including four benzimidazoles, ansamitocin P-3, griseofulvin, and rhizoxin, on the agar plate at 37 degrees C. Nocodazole, thiabendazole, and griseofulvin reversed the mitotic arrest of the mutant and promoted its hyphal growth. Ansamitocin P-3 and rhizoxin showed growth recovery zones around the growth-inhibitory zones. Benomyl and carbendazim also reversed mitotic arrest but produced weaker growth recovery than the aforementioned drugs. Other microtubule inhibitors, such as colchicine, Colcemid, paclitaxel, podophyllotoxin, TN-16, vinblastine, and vincristine, as well as some cytoskeletal inhibitors tested, did not show such activity. In our screening, we newly identified two mycotoxins, citrinin and patulin, two sesquiterpene dialdehydes, polygodial and warburganal, and four phenylalanine derivatives, arphamenine A, L-2,5-dihydrophenylalanine (DHPA), N-tosyl-L-phenylalanine chloromethylketone, and N-carbobenzoxy-L-phenylalanine chloromethyl ketone. In a wild-type strain of A. nidulans, DHPA caused selective losses of microtubules, as determined by fluorescence microscopy, and of both alpha- and beta-tubulins, as determined by Western blot analysis. This screening method involving the benA33 mutant of A. nidulans is useful, convenient, and highly selective. The phenylalanine derivatives tested are of a novel type of microtubule-disrupting antifungal agents, producing an accompanying loss of tubulins, and are different from well-known tubulin inhibitors affecting the assembly of tubulin dimers into microtubules.
3. Differentiation of Erwinia amylovora and Erwinia pyrifoliae strains with single nucleotide polymorphisms and by synthesis of dihydrophenylalanine
I Gehring, K Geider Curr Microbiol. 2012 Jul;65(1):73-84. doi: 10.1007/s00284-012-0116-5. Epub 2012 Apr 27.
Fire blight has spread from North America to New Zealand, Europe, and the Mediterranean region. We were able to differentiate strains from various origins with a novel PCR method. Three Single Nucleotide Polymorphisms (SNPs) in the Erwinia amylovora genome were characteristic of isolates from North America and could distinguish them from isolates from other parts of the world. They were derived from the galE, acrB, and hrpA genes of strains Ea273 and Ea1/79. These genes were analyzed by conventional PCR (cPCR) and quantitative PCR (qPCR) with differential primer annealing temperatures. North-American E. amylovora strains were further differentiated according to their production of L: -2,5-dihydrophenylalanine (DHP) as tested by growth inhibition of the yeast Rhodotorula glutinis. E. amylovora fruit tree (Maloideae) and raspberry (rubus) strains were also differentiated by Single Strand Conformational Polymorphism analysis. Strains from the related species Erwinia pyrifoliae isolated in Korea and Japan were all DHP positive, but were differentiated from each other by SNPs in the galE gene. Differential PCR is a rapid and simple method to distinguish E. amylovora as well as E. pyrifoliae strains according to their geographical origin.
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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 ╳
