Sinapis arvensis

Common Names: charlock, charlock mustard, corn mustard, corn-mustard, wild mustard

Ethnobotanical Studies

Marmilla Subregion, Sardinia, Italy

Uses: Diuretic, laxative, eupeptic, rubefacient, stimulating the gastric mucosa

DOI:: 10.3390/plants11223165
PubMed:: 36432894

Shouf Biosphere Reserve, Lebanon

Uses: Bach flower remedies (Black depression)

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

Clinical Trials

Water Deficit, Nitrogen Availability, and Their Combination Differently Affect Floral Scent Emission in Three Brassicaceae Species.

Höfer RJ, Ayasse M and Kuppler J (2022).; J Chem Ecol.
DOI:: 10.1007/s10886-022-01393-z
PubMed:: 36525146

Studies

Antimicrobial, Herbicidal and pesticidal potential of Tunisian eucalyptus species: Chemoprofiling and biological evaluation.

Summary

Researchers analyzed essential oils from five trees in Tunisia, finding unique compositions with potential phytotoxic and antibacterial properties. The oils showed inhibitory effects on biofilm formation and enzyme activity, suggesting potential agricultural and medicinal applications.

Antimicrobial

Khedhri S et al (2024).; Heliyon.
DOI:: 10.1016/j.heliyon.2024.e29905
PubMed:: 38720723

Artemisia arborescens (Vaill.) L.: Micromorphology, Essential Oil Composition, and Its Potential as an Alternative Biocontrol Product.

Phytochemistry

Polito F et al (2024).; Plants (Basel).
DOI:: 10.3390/plants13060825
PubMed:: 38592817

Effectiveness and Selectivity of Pre- and Post-Emergence Herbicides for Weed Control in Grain Legumes.

Kousta A et al (2024).; Plants (Basel).
DOI:: 10.3390/plants13020211
PubMed:: 38256764

Phytochemical study on the essential oils of Callitris glaucophylla Joy Thomps. & L.A.S. Johnson, and assessment of their antioxidant, anti-enzymatic and allelopathic effects.

Immunology Phytochemistry

Kochti O et al (2023).; Heliyon.
DOI:: 10.1016/j.heliyon.2023.e23656
PubMed:: 38187260

Chemical Composition of Essential Oils from Eight Tunisian Eucalyptus Species and Their Antifungal and Herbicidal Activities.

Summary

Scientists analyzed the essential oils (EOs) from eight plant species in Tunisia to determine their chemical composition. The EOs were found to have antifungal and herbicidal activities, making them potentially useful as biopesticides and bioherbicides in agriculture.

Antimicrobial

Ayed A et al (2023).; Plants (Basel).
DOI:: 10.3390/plants12173068
PubMed:: 37687315

Investigation on Chemical Composition, Antioxidant, Antifungal and Herbicidal Activities of Volatile Constituents from Deverra tortuosa (Desf.).

Summary

The study analyzed essential oils (EOs) from and found they have antioxidant, antifungal, and herbicidal properties. They could be useful for pest management and sustainable agriculture.

Antimicrobial Immunology

Khammassi M et al (2023).; Plants (Basel).
DOI:: 10.3390/plants12132556
PubMed:: 37447117

Biochemical analysis, photosynthetic gene (psbA) down-regulation, and in silico receptor prediction in weeds in response to exogenous application of phenolic acids and their analogs.

Phytochemistry

Anwar S, Naseem S and Ali Z (2023).; PLoS One.
DOI:: 10.1371/journal.pone.0277146
PubMed:: 36952510

Origanum heracleoticum Essential Oils: Chemical Composition, Phytotoxic and Alpha-Amylase Inhibitory Activities.

Phytochemistry

Amato G et al (2023).; Plants (Basel).
DOI:: 10.3390/plants12040866
PubMed:: 36840214

Essential Oils and Biological Activities of Eucalyptus falcata, E. sideroxylon and E. citriodora Growing in Tunisia.

Phytochemistry

Amri I et al (2023).; Plants (Basel).
DOI:: 10.3390/plants12040816
PubMed:: 36840164

10.

Investigation of the agroecological applications of olive mill wastewater fractions from the ultrafiltration-nanofiltration process.

Saf C et al (2023).; J Environ Manage.
DOI:: 10.1016/j.jenvman.2023.117467
PubMed:: 36764180

11.

A Model for Changes in Germination Synchrony and Its Implements to Study Weed Population Dynamics: A Case Study of Brassicaceae.

Maleki K et al (2023).; Plants (Basel).
DOI:: 10.3390/plants12020233
PubMed:: 36678945

12.

Chemical Composition, Phytotoxic and Antibiofilm Activity of Seven Eucalyptus Species from Tunisia.

Khedhri S et al (2022).; Molecules.
DOI:: 10.3390/molecules27238227
PubMed:: 36500316

13.

Chemical Composition and Phytotoxic and Antibiofilm Activity of the Essential Oils of Eucalyptus bicostata, E. gigantea, E. intertexta, E. obliqua, E. pauciflora and E. tereticornis.

Phytochemistry

Polito F et al (2022).; Plants (Basel).
DOI:: 10.3390/plants11223017
PubMed:: 36432746

14.

Sinapis genomes provide insights into whole-genome triplication and divergence patterns within tribe Brassiceae.

Genetics

Yang T et al (2023).; Plant J.
DOI:: 10.1111/tpj.16043
PubMed:: 36424891

15.

Effect of ozone exposure on the foraging behaviour of Bombus terrestris.

Saunier A, Grof-Tisza P and Blande JD (2023).; Environ Pollut.
DOI:: 10.1016/j.envpol.2022.120573
PubMed:: 36334775

16.

Chemistry and Bioactivities of Six Tunisian Eucalyptus Species.

Kouki H et al (2022).; Pharmaceuticals (Basel).
DOI:: 10.3390/ph15101265
PubMed:: 36297377

17.

Production of biodiesel from non-edible feedstocks using environment friendly nano-magnetic Fe/SnO catalyst.

Hanif M et al (2022).; Sci Rep.
DOI:: 10.1038/s41598-022-20856-7
PubMed:: 36202925

18.

Chemical Composition and Phytotoxic, Antibacterial and Antibiofilm Activity of the Essential Oils of Eucalyptus&nbsp;occidentalis, E. striaticalyx and E. stricklandii.

Phytochemistry

Khammassi M et al (2022).; Molecules.
DOI:: 10.3390/molecules27185820
PubMed:: 36144554

19.

Effects of elevated CO2 concentration and temperature on the mixed-culture grown wild mustard (Sinapis arvensis L.) response to auxin herbicide.

Žaltauskaitė J et al (2023).; Environ Sci Pollut Res Int.
DOI:: 10.1007/s11356-022-23134-1
PubMed:: 36136189

20.

Possible Acute Poisoning by Sinapis arvensis in Sheep: Clinical, Laboratory and Necropsy Findings.

Keywanloo M et al (2021).; Arch Razi Inst.
DOI:: 10.22092/ari.2020.351494.1525
PubMed:: 34824762

21.

Trp-574-Leu mutation in wild mustard (Sinapis arvensis L.) as a result of als inhibiting herbicide applications.

Sin B and Kadıoglu İ (2021).; PeerJ.
DOI:: 10.7717/peerj.11385
PubMed:: 34046259

22.

PCR-based identification of point mutation mediating acetolactate synthase-inhibiting herbicide resistance in weed wild mustard (Sinapis arvensis).

Khaledi R et al (2019).; Mol Biol Rep.
DOI:: 10.1007/s11033-019-04967-5
PubMed:: 31280423

23.

Trp574 substitution in the acetolactate synthase of Sinapis arvensis confers cross-resistance to tribenuron and imazamox.

Ntoanidou S et al (2017).; Pestic Biochem Physiol.
DOI:: 10.1016/j.pestbp.2016.12.008
PubMed:: 29107252

24.

Phytoremediation of lead-contaminated soil by Sinapis arvensis and Rapistrum rugosum.

Saghi A et al (2016).; Int J Phytoremediation.
DOI:: 10.1080/15226514.2015.1109607
PubMed:: 26552966

25.

Deep RNA-Seq to unlock the gene bank of floral development in Sinapis arvensis.

Genetics

Liu J et al (2014).; PLoS One.
DOI:: 10.1371/journal.pone.0105775
PubMed:: 25192023

26.

Preservation of pears in water in the presence of Sinapis arvensis seeds: a Greek tradition.

Papatsaroucha E et al (2012).; Int J Food Microbiol.
DOI:: 10.1016/j.ijfoodmicro.2012.08.015
PubMed:: 23107505

27.

Comparative genomic in situ hybridization (cGISH) analysis of the genomic relationships among Sinapis arvensis, Brassica rapa and Brassica nigra.

Genetics

Mao S et al (2012).; Hereditas.
DOI:: 10.1111/j.1601-5223.2012.02248.x
PubMed:: 22804340

28.

Genome-specific SCAR markers help solve taxonomy issues: a case study with Sinapis arvensis (Brassiceae, Brassicaceae).

Summary

This study suggests that the current names and groupings of Brassiceae plants don't accurately depict their evolutionary history. Researchers believe it's necessary to revise the taxonomy and classification of these plants based on new molecular data to better understand their relationships. This conclusion comes from an analysis of several species within the Brassicaceae family. The findings provide important insight for researchers and could aid in future studies of these plants.

Genetics Neuroscience

Pankin AA and Khavkin EE (2011).; Am J Bot.
DOI:: 10.3732/ajb.1000422
PubMed:: 21613124

Sinapis arvensis

Ethnobotanical Studies

Marmilla Subregion, Sardinia, Italy

Shouf Biosphere Reserve, Lebanon

Clinical Trials

Water Deficit, Nitrogen Availability, and Their Combination Differently Affect Floral Scent Emission in Three Brassicaceae Species.

Studies

Antimicrobial, Herbicidal and pesticidal potential of Tunisian eucalyptus species: Chemoprofiling and biological evaluation.

Artemisia arborescens (Vaill.) L.: Micromorphology, Essential Oil Composition, and Its Potential as an Alternative Biocontrol Product.

Effectiveness and Selectivity of Pre- and Post-Emergence Herbicides for Weed Control in Grain Legumes.

Phytochemical study on the essential oils of Callitris glaucophylla Joy Thomps. & L.A.S. Johnson, and assessment of their antioxidant, anti-enzymatic and allelopathic effects.

Chemical Composition of Essential Oils from Eight Tunisian Eucalyptus Species and Their Antifungal and Herbicidal Activities.

Investigation on Chemical Composition, Antioxidant, Antifungal and Herbicidal Activities of Volatile Constituents from Deverra tortuosa (Desf.).

Biochemical analysis, photosynthetic gene (psbA) down-regulation, and in silico receptor prediction in weeds in response to exogenous application of phenolic acids and their analogs.

Origanum heracleoticum Essential Oils: Chemical Composition, Phytotoxic and Alpha-Amylase Inhibitory Activities.

Essential Oils and Biological Activities of Eucalyptus falcata, E. sideroxylon and E. citriodora Growing in Tunisia.

Investigation of the agroecological applications of olive mill wastewater fractions from the ultrafiltration-nanofiltration process.

A Model for Changes in Germination Synchrony and Its Implements to Study Weed Population Dynamics: A Case Study of Brassicaceae.

Chemical Composition, Phytotoxic and Antibiofilm Activity of Seven Eucalyptus Species from Tunisia.

Chemical Composition and Phytotoxic and Antibiofilm Activity of the Essential Oils of Eucalyptus bicostata, E. gigantea, E. intertexta, E. obliqua, E. pauciflora and E. tereticornis.

Sinapis genomes provide insights into whole-genome triplication and divergence patterns within tribe Brassiceae.

Effect of ozone exposure on the foraging behaviour of Bombus terrestris.

Chemistry and Bioactivities of Six Tunisian Eucalyptus Species.

Production of biodiesel from non-edible feedstocks using environment friendly nano-magnetic Fe/SnO catalyst.

Chemical Composition and Phytotoxic, Antibacterial and Antibiofilm Activity of the Essential Oils of Eucalyptus&amp;nbsp;occidentalis, E. striaticalyx and E. stricklandii.

Effects of elevated CO2 concentration and temperature on the mixed-culture grown wild mustard (Sinapis arvensis L.) response to auxin herbicide.

Possible Acute Poisoning by Sinapis arvensis in Sheep: Clinical, Laboratory and Necropsy Findings.

Trp-574-Leu mutation in wild mustard (Sinapis arvensis L.) as a result of als inhibiting herbicide applications.

PCR-based identification of point mutation mediating acetolactate synthase-inhibiting herbicide resistance in weed wild mustard (Sinapis arvensis).

Trp574 substitution in the acetolactate synthase of Sinapis arvensis confers cross-resistance to tribenuron and imazamox.

Phytoremediation of lead-contaminated soil by Sinapis arvensis and Rapistrum rugosum.

Deep RNA-Seq to unlock the gene bank of floral development in Sinapis arvensis.

Preservation of pears in water in the presence of Sinapis arvensis seeds: a Greek tradition.

Comparative genomic in situ hybridization (cGISH) analysis of the genomic relationships among Sinapis arvensis, Brassica rapa and Brassica nigra.

Genome-specific SCAR markers help solve taxonomy issues: a case study with Sinapis arvensis (Brassiceae, Brassicaceae).

Chemical Composition and Phytotoxic, Antibacterial and Antibiofilm Activity of the Essential Oils of Eucalyptus occidentalis, E. striaticalyx and E. stricklandii.