Page last updated: 2024-12-09

2-(2,5-dimethoxyphenyl)-5-(5-methyl-2-furanyl)-1,3,4-oxadiazole

Description Research Excerpts Clinical Trials Roles Classes Pathways Study Profile Bioassays Related Drugs Related Conditions Protein Interactions Research Growth Market Indicators

2-(2,5-dimethoxyphenyl)-5-(5-methyl-2-furanyl)-1,3,4-oxadiazole is a chemical compound with a complex structure. It is an **oxadiazole derivative** containing a furan ring and a dimethoxyphenyl group.

**Importance in Research:**

The exact importance of this specific compound is unclear without further context. However, **oxadiazole derivatives** are generally known for their diverse biological activities, making them attractive targets for research in various fields:

* **Medicinal Chemistry:** Oxadiazoles can act as potent **pharmacological agents**, exhibiting activity against various diseases like cancer, inflammation, and infections. Their unique structural features allow them to bind to different targets, including enzymes, receptors, and DNA.

* **Materials Science:** Oxadiazoles can be used in the development of **organic electronics**, such as OLEDs (organic light-emitting diodes) and solar cells. They possess good electron-transporting properties and can be engineered to exhibit specific fluorescence properties.

* **Agricultural Chemistry:** Some oxadiazoles have shown potential as **pesticides** or **herbicides**. Their structural modifications can influence their interaction with target organisms, impacting their biological activity.

**To understand the specific importance of 2-(2,5-dimethoxyphenyl)-5-(5-methyl-2-furanyl)-1,3,4-oxadiazole, more information is required:**

* **Research Focus:** What specific area of research is this compound related to (e.g., drug development, materials science, etc.)?
* **Biological Activity:** What are the known or hypothesized biological properties of this compound?
* **Applications:** What potential applications are being explored for this compound?

Without this context, it is difficult to determine its specific importance for research.

Cross-References

ID SourceID
PubMed CID644574
CHEMBL ID1392265
CHEBI ID112946

Synonyms (12)

Synonym
2-(2,5-dimethoxy-phenyl)-5-(5-methyl-furan-2-yl)-[1,3,4]oxadiazole
smr000002065
MLS000030586
OPREA1_395950
CHEBI:112946
2-(2,5-dimethoxyphenyl)-5-(5-methylfuran-2-yl)-1,3,4-oxadiazole
HMS2409K08
CHEMBL1392265
2-(2,5-dimethoxyphenyl)-5-(5-methyl-2-furanyl)-1,3,4-oxadiazole
Q27193410
sr-01000348458
SR-01000348458-1
[information is derived through text-mining from research data collected from National Library of Medicine (NLM), extracted Dec-2023]

Drug Classes (1)

ClassDescription
dimethoxybenzeneAny methoxybenzene that consists of a benzene skeleton substituted with two methoxy groups and its derivatives.
[compound class information is derived from Chemical Entities of Biological Interest (ChEBI), Hastings J, Owen G, Dekker A, Ennis M, Kale N, Muthukrishnan V, Turner S, Swainston N, Mendes P, Steinbeck C. (2016). ChEBI in 2016: Improved services and an expanding collection of metabolites. Nucleic Acids Res]

Protein Targets (19)

Potency Measurements

ProteinTaxonomyMeasurementAverage (µ)Min (ref.)Avg (ref.)Max (ref.)Bioassay(s)
Chain A, HADH2 proteinHomo sapiens (human)Potency18.85410.025120.237639.8107AID886; AID893
Chain B, HADH2 proteinHomo sapiens (human)Potency18.85410.025120.237639.8107AID886; AID893
Chain A, 2-oxoglutarate OxygenaseHomo sapiens (human)Potency28.18380.177814.390939.8107AID2147
LuciferasePhotinus pyralis (common eastern firefly)Potency42.56150.007215.758889.3584AID588342
acid sphingomyelinaseHomo sapiens (human)Potency25.118914.125424.061339.8107AID504937
Nrf2Homo sapiens (human)Potency11.22020.09208.222223.1093AID624171
thioredoxin reductaseRattus norvegicus (Norway rat)Potency61.08760.100020.879379.4328AID588453; AID588456
ClpPBacillus subtilisPotency2.51191.995322.673039.8107AID651965
TDP1 proteinHomo sapiens (human)Potency23.10930.000811.382244.6684AID686978; AID686979
Microtubule-associated protein tauHomo sapiens (human)Potency25.11890.180013.557439.8107AID1460
thioredoxin glutathione reductaseSchistosoma mansoniPotency50.11870.100022.9075100.0000AID485364
aldehyde dehydrogenase 1 family, member A1Homo sapiens (human)Potency28.18380.011212.4002100.0000AID1030
thyroid stimulating hormone receptorHomo sapiens (human)Potency12.58930.001318.074339.8107AID926; AID938
15-hydroxyprostaglandin dehydrogenase [NAD(+)] isoform 1Homo sapiens (human)Potency31.62280.001815.663839.8107AID894
nuclear factor erythroid 2-related factor 2 isoform 2Homo sapiens (human)Potency23.10930.00419.984825.9290AID504444
peptidyl-prolyl cis-trans isomerase NIMA-interacting 1Homo sapiens (human)Potency67.45550.425612.059128.1838AID504891
survival motor neuron protein isoform dHomo sapiens (human)Potency14.12540.125912.234435.4813AID1458
Guanine nucleotide-binding protein GHomo sapiens (human)Potency50.11871.995325.532750.1187AID624287
TAR DNA-binding protein 43Homo sapiens (human)Potency12.58931.778316.208135.4813AID652104
[prepared from compound, protein, and bioassay information from National Library of Medicine (NLM), extracted Dec-2023]

Biological Processes (23)

Processvia Protein(s)Taxonomy
negative regulation of inflammatory response to antigenic stimulusGuanine nucleotide-binding protein GHomo sapiens (human)
renal water homeostasisGuanine nucleotide-binding protein GHomo sapiens (human)
G protein-coupled receptor signaling pathwayGuanine nucleotide-binding protein GHomo sapiens (human)
regulation of insulin secretionGuanine nucleotide-binding protein GHomo sapiens (human)
cellular response to glucagon stimulusGuanine nucleotide-binding protein GHomo sapiens (human)
negative regulation of protein phosphorylationTAR DNA-binding protein 43Homo sapiens (human)
mRNA processingTAR DNA-binding protein 43Homo sapiens (human)
RNA splicingTAR DNA-binding protein 43Homo sapiens (human)
negative regulation of gene expressionTAR DNA-binding protein 43Homo sapiens (human)
regulation of protein stabilityTAR DNA-binding protein 43Homo sapiens (human)
positive regulation of insulin secretionTAR DNA-binding protein 43Homo sapiens (human)
response to endoplasmic reticulum stressTAR DNA-binding protein 43Homo sapiens (human)
positive regulation of protein import into nucleusTAR DNA-binding protein 43Homo sapiens (human)
regulation of circadian rhythmTAR DNA-binding protein 43Homo sapiens (human)
regulation of apoptotic processTAR DNA-binding protein 43Homo sapiens (human)
negative regulation by host of viral transcriptionTAR DNA-binding protein 43Homo sapiens (human)
rhythmic processTAR DNA-binding protein 43Homo sapiens (human)
regulation of cell cycleTAR DNA-binding protein 43Homo sapiens (human)
3'-UTR-mediated mRNA destabilizationTAR DNA-binding protein 43Homo sapiens (human)
3'-UTR-mediated mRNA stabilizationTAR DNA-binding protein 43Homo sapiens (human)
nuclear inner membrane organizationTAR DNA-binding protein 43Homo sapiens (human)
amyloid fibril formationTAR DNA-binding protein 43Homo sapiens (human)
regulation of gene expressionTAR DNA-binding protein 43Homo sapiens (human)
[Information is prepared from geneontology information from the June-17-2024 release]

Molecular Functions (12)

Processvia Protein(s)Taxonomy
G protein activityGuanine nucleotide-binding protein GHomo sapiens (human)
adenylate cyclase activator activityGuanine nucleotide-binding protein GHomo sapiens (human)
RNA polymerase II cis-regulatory region sequence-specific DNA bindingTAR DNA-binding protein 43Homo sapiens (human)
DNA bindingTAR DNA-binding protein 43Homo sapiens (human)
double-stranded DNA bindingTAR DNA-binding protein 43Homo sapiens (human)
RNA bindingTAR DNA-binding protein 43Homo sapiens (human)
mRNA 3'-UTR bindingTAR DNA-binding protein 43Homo sapiens (human)
protein bindingTAR DNA-binding protein 43Homo sapiens (human)
lipid bindingTAR DNA-binding protein 43Homo sapiens (human)
identical protein bindingTAR DNA-binding protein 43Homo sapiens (human)
pre-mRNA intronic bindingTAR DNA-binding protein 43Homo sapiens (human)
molecular condensate scaffold activityTAR DNA-binding protein 43Homo sapiens (human)
[Information is prepared from geneontology information from the June-17-2024 release]

Ceullar Components (10)

Processvia Protein(s)Taxonomy
plasma membraneGuanine nucleotide-binding protein GHomo sapiens (human)
intracellular non-membrane-bounded organelleTAR DNA-binding protein 43Homo sapiens (human)
nucleusTAR DNA-binding protein 43Homo sapiens (human)
nucleoplasmTAR DNA-binding protein 43Homo sapiens (human)
perichromatin fibrilsTAR DNA-binding protein 43Homo sapiens (human)
mitochondrionTAR DNA-binding protein 43Homo sapiens (human)
cytoplasmic stress granuleTAR DNA-binding protein 43Homo sapiens (human)
nuclear speckTAR DNA-binding protein 43Homo sapiens (human)
interchromatin granuleTAR DNA-binding protein 43Homo sapiens (human)
nucleoplasmTAR DNA-binding protein 43Homo sapiens (human)
chromatinTAR DNA-binding protein 43Homo sapiens (human)
[Information is prepared from geneontology information from the June-17-2024 release]

Bioassays (13)

Assay IDTitleYearJournalArticle
AID588499High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain A protease, MLPCN compound set2010Current protocols in cytometry, Oct, Volume: Chapter 13Microsphere-based flow cytometry protease assays for use in protease activity detection and high-throughput screening.
AID588499High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain A protease, MLPCN compound set2006Cytometry. Part A : the journal of the International Society for Analytical Cytology, May, Volume: 69, Issue:5
Microsphere-based protease assays and screening application for lethal factor and factor Xa.
AID588499High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain A protease, MLPCN compound set2010Assay and drug development technologies, Feb, Volume: 8, Issue:1
High-throughput multiplex flow cytometry screening for botulinum neurotoxin type a light chain protease inhibitors.
AID504810Antagonists of the Thyroid Stimulating Hormone Receptor: HTS campaign2010Endocrinology, Jul, Volume: 151, Issue:7
A small molecule inverse agonist for the human thyroid-stimulating hormone receptor.
AID588497High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain F protease, MLPCN compound set2010Current protocols in cytometry, Oct, Volume: Chapter 13Microsphere-based flow cytometry protease assays for use in protease activity detection and high-throughput screening.
AID588497High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain F protease, MLPCN compound set2006Cytometry. Part A : the journal of the International Society for Analytical Cytology, May, Volume: 69, Issue:5
Microsphere-based protease assays and screening application for lethal factor and factor Xa.
AID588497High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Botulinum neurotoxin light chain F protease, MLPCN compound set2010Assay and drug development technologies, Feb, Volume: 8, Issue:1
High-throughput multiplex flow cytometry screening for botulinum neurotoxin type a light chain protease inhibitors.
AID504812Inverse Agonists of the Thyroid Stimulating Hormone Receptor: HTS campaign2010Endocrinology, Jul, Volume: 151, Issue:7
A small molecule inverse agonist for the human thyroid-stimulating hormone receptor.
AID588501High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Lethal Factor Protease, MLPCN compound set2010Current protocols in cytometry, Oct, Volume: Chapter 13Microsphere-based flow cytometry protease assays for use in protease activity detection and high-throughput screening.
AID588501High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Lethal Factor Protease, MLPCN compound set2006Cytometry. Part A : the journal of the International Society for Analytical Cytology, May, Volume: 69, Issue:5
Microsphere-based protease assays and screening application for lethal factor and factor Xa.
AID588501High-throughput multiplex microsphere screening for inhibitors of toxin protease, specifically Lethal Factor Protease, MLPCN compound set2010Assay and drug development technologies, Feb, Volume: 8, Issue:1
High-throughput multiplex flow cytometry screening for botulinum neurotoxin type a light chain protease inhibitors.
AID651635Viability Counterscreen for Primary qHTS for Inhibitors of ATXN expression
AID1745845Primary qHTS for Inhibitors of ATXN expression
[information is prepared from bioassay data collected from National Library of Medicine (NLM), extracted Dec-2023]

Research

Studies (5)

TimeframeStudies, This Drug (%)All Drugs %
pre-19900 (0.00)18.7374
1990's0 (0.00)18.2507
2000's1 (20.00)29.6817
2010's3 (60.00)24.3611
2020's1 (20.00)2.80
[information is prepared from research data collected from National Library of Medicine (NLM), extracted Dec-2023]

Market Indicators

Research Demand Index: 12.56

According to the monthly volume, diversity, and competition of internet searches for this compound, as well the volume and growth of publications, there is estimated to be weak demand-to-supply ratio for research on this compound.

MetricThis Compound (vs All)
Research Demand Index12.56 (24.57)
Research Supply Index1.79 (2.92)
Research Growth Index4.36 (4.65)
Search Engine Demand Index0.00 (26.88)
Search Engine Supply Index0.00 (0.95)

This Compound (12.56)

All Compounds (24.57)

Study Types

Publication TypeThis drug (%)All Drugs (%)
Trials0 (0.00%)5.53%
Reviews0 (0.00%)6.00%
Case Studies0 (0.00%)4.05%
Observational0 (0.00%)0.25%
Other5 (100.00%)84.16%
[information is prepared from research data collected from National Library of Medicine (NLM), extracted Dec-2023]