Papaver rhoeas

Common Names: corn poppy

Ethnobotanical Studies

Marmilla Subregion, Sardinia, Italy

Uses: Bechic, diaphoretic, broncho sedative and narcotic-sedative

DOI:: 10.3390/plants11223165
PubMed:: 36432894

Shouf Biosphere Reserve, Lebanon

Uses: Soporific for babies, Cardiac affections, Pectoral emollient, Calmative, Slightly narcotic, Expectorant, Flu, Sedative to soothe coughs

DOI:: 10.1186/s13002-022-00568-y
PubMed:: 36572929

Hungary

Uses: insomnia, mouth and gum diseases, heavy menstruation, intestinal pain, fever, throat, and tongue swelling, “St Anthony’s Fire,” nose- and liver- bleeding, breast pain, catarrh, pleurisy

DOI:: 10.3390/plants12010084
PubMed:: 36616213

Studies

Development of Ultrasound-Processed Poppy (Papaver rhoeas L.) Sherbet Enriched with Bee Bread Using Response Surface Methodology: Changes in Shelf Life.

Yıkmış S et al (2024).; ACS Omega.
DOI:: 10.1021/acsomega.4c03351
PubMed:: 38973889

Evaluation of commercial importance of endophytes isolated from Argemone mexicana and Papaver rhoeas.

Singh P et al (2024).; Environ Sci Pollut Res Int.
DOI:: 10.1007/s11356-024-33527-z
PubMed:: 38710850

Long-Term Monitoring of the Traditional Knowledge of Plant Species Used for Culinary Purposes in the Valencia Region, South-Eastern Spain.

Belda A et al (2024).; Plants (Basel).
DOI:: 10.3390/plants13060775
PubMed:: 38592810

Chemical profile of Juniperus excelsa M. Bieb. essential oil within and between populations and its weed seed suppression effect.

Phytochemistry

Semerdjieva I et al (2024).; PLoS One.
DOI:: 10.1371/journal.pone.0294126
PubMed:: 38330006

Prevalence, spatial structure and evolution of resistance to acetolactate-synthase (ALS) inhibitors and 2,4-D in the major weed Papaver rhoeas (L.) assessed using a massive, country-wide sampling.

Koreki A et al (2023).; Pest Manag Sci.
DOI:: 10.1002/ps.7791
PubMed:: 37752099

Chemical characterization, anti-struvite crystal, anti-inflammatory, analgesic, and antidepressant activities of Papaver rhoeas L. root and leaf extracts.

Summary

Scientists investigated the effects of root and leaf extracts from Papaver rhoeas on struvite crystals, inflammation, pain, and depression. No previous data available. Useful for potential treatment applications.

Immunology Neuroscience Pain

Hmamou A et al (2023).; J Ethnopharmacol.
DOI:: 10.1016/j.jep.2023.117208
PubMed:: 37739099

Green Synthesis of Silver Nanoparticles Derived from Papaver rhoeas L. Leaf Extract: Cytotoxic and Antimicrobial Properties.

Summary

PR-AgNPs, produced from PR L. leaf extract, exhibit spherical shape, high thermal stability, and potential for nanomedicine. In vitro tests indicate cytotoxic effects on cancer cells, but further research is required.

Antimicrobial

İpek P et al (2023).; Molecules.
DOI:: 10.3390/molecules28176424
PubMed:: 37687252

Monofloral Corn Poppy Bee-Collected Pollen-A Detailed Insight into Its Phytochemical Composition and Antioxidant Properties.

Immunology Phytochemistry

Kostić AŽ et al (2023).; Antioxidants (Basel).
DOI:: 10.3390/antiox12071424
PubMed:: 37507962

New Host Plant Species of Grapevine virus A Identified with Vector-Mediated Infections.

Voncina D et al (2023).; Plant Dis.
DOI:: 10.1094/PDIS-03-23-0607-RE
PubMed:: 37498631

10.

Effect of Papaver rhoeas hydroalcoholic extract on blood corticosterone and psychosocial behaviors in the mice model of predator exposure-induced post-traumatic stress disorder.

Shahyad S et al (2023).; Heliyon.
DOI:: 10.1016/j.heliyon.2023.e18084
PubMed:: 37483762

11.

Papaver rhoeas L. stem and flower extracts: Anti-struvite, anti-inflammatory, analgesic, and antidepressant activities.

Summary

L. () plant extracts have anti-struvite, anti-inflammatory, analgesic, and antidepressant effects, containing secondary metabolites that inhibit struvite crystal formation. Promising for pharmaceutical use due to bioactive properties.

Immunology Neuroscience Pain

Hmamou A et al (2023).; Saudi Pharm J.
DOI:: 10.1016/j.jsps.2023.06.019
PubMed:: 37448842

12.

Validation of a new tool to predict the weed emergence in Spain.

Sousa-Ortega C and Alcantara MC (2023).; Pest Manag Sci.
DOI:: 10.1002/ps.7642
PubMed:: 37401546

13.

Pathway elucidation and microbial synthesis of proaporphine and bis-benzylisoquinoline alkaloids from sacred lotus (Nelumbo nucifera).

Phytochemistry

Pyne ME, Gold ND and Martin VJJ (2023).; Metab Eng.
DOI:: 10.1016/j.ymben.2023.03.010
PubMed:: 37004909

14.

Papaver somniferum and Papaver rhoeas Classification Based on Visible Capsule Images Using a Modified MobileNetV3-Small Network with Transfer Learning.

Zhu J, Zhang C and Zhang C (2023).; Entropy (Basel).
DOI:: 10.3390/e25030447
PubMed:: 36981335

15.

Iconic Arable Weeds: The Significance of Corn Poppy (Papaver rhoeas), Cornflower (Centaurea cyanus), and Field Larkspur (Delphinium consolida) in Hungarian Ethnobotanical and Cultural Heritage.

Review Ethnobotany

Pinke G, Kapcsándi V and Czúcz B (2022).; Plants (Basel).
DOI:: 10.3390/plants12010084
PubMed:: 36616213

16.

Tribenuron-methyl metabolism and the rare Pro197Phe double mutation together with 2,4-D metabolism and reduced absorption can evolve in Papaver rhoeas with multiple and cross herbicide resistance to ALS inhibitors and auxin mimics.

Palma-Bautista C et al (2022).; Pestic Biochem Physiol.
DOI:: 10.1016/j.pestbp.2022.105226
PubMed:: 36464346

17.

Precipitation predictability affects intra- and trans-generational plasticity and causes differential selection on root traits of Papaver rhoeas.

March-Salas M et al (2022).; Front Plant Sci.
DOI:: 10.3389/fpls.2022.998169
PubMed:: 36452110

18.

Weed Hosts Represent an Important Reservoir of Turnip Yellows Virus and a Possible Source of Virus Introduction into Oilseed Rape Crop.

Slavíková L et al (2022).; Viruses.
DOI:: 10.3390/v14112511
PubMed:: 36423120

19.

Self-incompatibility in Papaver rhoeas: a role for ATP.

Cheung AY et al (2022).; New Phytol.
DOI:: 10.1111/nph.18505
PubMed:: 36256463

20.

Growth Responses of Three European Weeds on Different AMF Species during Early Development.

Säle V, Sieverding E and Oehl F (2022).; Plants (Basel).
DOI:: 10.3390/plants11152020
PubMed:: 35956501

21.

Depletion plays a pivotal role in self-incompatibility, revealing a link between cellular energy status, cytosolic acidification and actin remodelling in pollen tubes.

Wang L et al (2022).; New Phytol.
DOI:: 10.1111/nph.18350
PubMed:: 35775998

22.

Self-incompatibility requires GPI anchor remodeling by the poppy PGAP1 ortholog HLD1.

Lin Z et al (2022).; Curr Biol.
DOI:: 10.1016/j.cub.2022.02.072
PubMed:: 35316654

23.

Flower Extracts as Multifunctional Dyes in the Cosmetics Industry.

Bujak T et al (2022).; Molecules.
DOI:: 10.3390/molecules27030922
PubMed:: 35164187

24.

Ethyl Acetate Fractions of Papaver rhoeas L. and Papaver nudicaule L. Exert Antioxidant and Anti-Inflammatory Activities.

Immunology

Kim H et al (2021).; Antioxidants (Basel).
DOI:: 10.3390/antiox10121895
PubMed:: 34942995

25.

Characterization of extracts from Papaver rhoeas and potential valorization of these extracts in dyeing applications.

Boussoum MO et al (2021).; Turk J Chem.
DOI:: 10.3906/kim-2105-44
PubMed:: 34849068

26.

Molecular identification and phylogenetic analysis of Papaver based on ITS2 barcoding.

Cheng L et al (2022).; J Forensic Sci.
DOI:: 10.1111/1556-4029.14925
PubMed:: 34724600

27.

Cytochrome P450 metabolism-based herbicide resistance to imazamox and 2,4-D in Papaver rhoeas.

Torra J et al (2021).; Plant Physiol Biochem.
DOI:: 10.1016/j.plaphy.2021.01.007
PubMed:: 33454636

28.

Complete Chloroplast Genomes of Papaver rhoeas and Papaver orientale: Molecular Structures, Comparative Analysis, and Phylogenetic Analysis.

Genetics

Zhou J et al (2018).; Molecules.
DOI:: 10.3390/molecules23020437
PubMed:: 29462921

29.

Papaver Rhoeas L. Hydroalcoholic Extract Exacerbates Forced Swimming Test-Induced Depression in Mice.

Osanloo N et al (2016).; Basic Clin Neurosci.
DOI:: 10.15412/J.BCN.03070304
PubMed:: 27563412

30.

Intoxication due to Papaver rhoeas (Corn Poppy): Five Case Reports.

Günaydın YK et al (2015).; Case Rep Med.
DOI:: 10.1155/2015/321360
PubMed:: 26074968

31.

[Identification of Papaver somni ferum L. and Papaver rhoeas using DSWT-FTIR-RBFNN].

Zhang CJ and Cheng CG (2009).; Guang Pu Xue Yu Guang Pu Fen Xi.
PubMed:: 19650465

32.

Genomic organization of the Papaver rhoeas self-incompatibility S(1) locus.

Review Genetics

Wheeler MJ et al (2003).; J Exp Bot.
PubMed:: 12456763