1195-08-0Relevant articles and documents
ESI-CID spectral characterization and differentiation of the cross links of thymine formed by one electron oxidation with SO4 ●-
Chandran, Jisha,Vishnu,Aravind, Usha K.,Aravindakumar
, p. 53 - 60 (2019)
The analysis of urinary nucleosides is becoming a very good tool in the diagnosis of diseases like AIDS and cancer and consequently the identification of modified nucleosides using mass spectrometry is an area of utmost importance. In this context, there is a high relevance in the understanding of the mechanism of collisionally induced dissociation (CID) of these heterocyclics. The present work characterizes and differentiates the cross-linked products formed by one electron oxidation of thymine (T). Three dimers A, B and C, were analyzed, out of which the dimer A is a C5–C5’ cross link of two T molecules containing a fused tetrahydrofuran ring, while B and C are N–C cross linked products. B and C showed very similar fragmentation pattern but that of A was different. The differentiation between these three were made by monitoring two characteristic peaks, the water loss peak ([M+H]+) and the protonated T fragment ([T + H]+). The probable mechanism of formation of these fragments and their CID mechanism in both positive and negative ionization modes are also explained. The neutral losses of NH3, H2O and NHCO were the prominent mechanism in the positive mode, while in the negative mode, only NHCO and CO losses were observed.
Synthesis and mass spectrometry analysis of oligonucleotides bearing 5- formyl-2'-deoxyuridine in their structure
Berthod,Petillot,Guy,Cadet,Forest,Molko
, p. 1287 - 1305 (1996)
Two oligonucleotides containing FdU (1) have been synthesized. The use of the 'Pac-amidites' for the natural nucleosides has allowed the incorporation of the oxidized thymine residue without protection of the aldehydic function. The oligonucleotide composition was confirmed by enzymatic digestion and electrospray mass spectrometry.
New Metal-Free Route towards Imidazole-Substituted Uridine
Dehaen, Wim,Herdewijn, Piet,Mattelaer, Henri-Philippe,Van Hool, Anne-Sophie,Van Meervelt, Luc,Van der Auweraer, Mark,de Jong, Flip
, (2020)
Nucleosides with a bi(hetero)aryl nucleobase have unique potential applications as antiviral drugs and molecular probes. The need for transition metal catalysis to synthesize these nucleosides from pre-functionalized building blocks and the use of nucleobase protection groups results in expensive and tedious syntheses. Herein we report that 5-imidazolyl-uracil can be obtained by scalable Van Leusen imidazole synthesis and regioselectively introduced on ribose to obtain the desired nucleoside in a 5 step synthesis (total yield 55 percent). The 5-imidazolyl moiety leads to improved fluorescence properties. The only side-product formed was characterized by 2D-NMR and X-ray crystallography and could be suppressed during synthesis in favor of the desired product.
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Ulrich et al.
, p. 1183,1185 (1969)
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Fluorescent biaryl uracils with C5-dihydro- And quinazolinone heterocyclic appendages in PNA
Heidari, Ali,Ghorbani-Choghamarani, Arash,Hajjami, Maryam,Hudson, Robert H.E.
, (2020)
There has been much effort to exploit fluorescence techniques in the detection of nucleic acids. Canonical nucleic acids are essentially nonfluorescent; however, the modification of the nucleobase has proved to be a fruitful way to engender fluorescence. Much of the chemistry used to prepare modified nucleobases relies on expensive transition metal catalysts. In this work, we describe the synthesis of biaryl quinazolinone-uracil nucleobase analogs prepared by the condensation of anthranilamide derivatives and 5-formyluracil using inexpensive copper salts. A selection of modified nucleobases were prepared, and the effect of methoxy- or nitro- group substitution on the photophysical properties was examined. Both the dihydroquinazolinone and quinazolinone modified uracils have much larger molar absorptivity (~4-8×) than natural uracil and produce modest blue fluorescence. The quinazolinone-modified uracils display higher quantum yields than the corresponding dihydroquinazolinones and also show temperature and viscosity dependent emission consistent with molecular rotor behavior. Peptide nucleic acid (PNA) monomers possessing quinazolinone modified uracils were prepared and incorporated into oligomers. In the sequence context examined, the nitro-substituted, methoxy-substituted and unmodified quinazolinone inserts resulted in a stabilization (?Tm = +4.0/insert; +2.0/insert; +1.0/insert, respectively) relative to control PNA sequence upon hybridization to complementary DNA. All three derivatives responded to hybridization by the “turn-on” of fluorescence intensity by ca. 3-to-4 fold and may find use as probes for complementary DNA sequences.
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Brossmer,Ziegler
, p. 5253 (1966)
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The pH-Dependence of the Hydration of 5-Formylcytosine: an Experimental and Theoretical Study
Zott, Fabian L.,Korotenko, Vasily,Zipse, Hendrik
, (2022/02/17)
5-Formylcytosine is an important nucleobase in epigenetic regulation, whose hydrate form has been implicated in the formation of 5-carboxycytosine as well as oligonucleotide binding events. The hydrate content of 5-formylcytosine and its uracil derivative has now been quantified using a combination of NMR and mass spectroscopic measurements as well as theoretical studies. Small amounts of hydrate can be identified for the protonated form of 5-formylcytosine and for neutral 5-formyluracil. For neutral 5-formylcytosine, however, direct detection of the hydrate was not possible due to its very low abundance. This is in full agreement with theoretical estimates.
Novel 1H-pyrazolo[3,4-d]pyrimidin-6-amino derivatives as potent selective Janus kinase 3 (JAK3) inhibitors. Evaluation of their improved effect for the treatment of rheumatoid arthritis
Chen, Cheng-Juan,Shu, Lei,Wang, Zhi-Jian,Yin, Yuan,Yu, Ru-Nan,Zhang, Da-Yong,Zhang, Tian-Tai
, (2020/03/17)
Selective JAK3 inhibitors have been shown to have a potential benefit in the treatment of autoimmune disorders. Here we report the identification of a series of pyrazolopyrimidine derivatives as potent JAK3 inhibitors that exploit a unique cysteine (Cys909) residue in JAK3. Most of these compounds (13k, 13n and 13 t), displayed stronger anti-JAK3 kinase activity and selectivity than tofacitinib. Furthermore, the most active inhibitor 13t (IC50 = 0.1 nM), also exhibited favourable selectivity for JAK3 in a panel of 9 kinases which contain the same cysteine. In a series of cytokinestimulated cellular analysis, compound 13 t, could potently block the JAK3-STAT signaling pathway. Further biological studies, including cellular antiproliferative activity assays and a rat adjuvant-induced arthritis model for in vivo evaluation, also indicated its efficacy and low toxicity in the treatment of rheumatoid arthritis. The results of these experimental explorations suggested that 13t is a promising lead compound for the development of selective JAK3 inhibitor with therapeutic potential in rheumatoid arthritis.