1.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
2.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Elmer,
W., Hines, D., &Schultes, N. P. (2023). First report of Fusariumlibertatis
causing vascular disease of Jade plant (Crassulaovata). Journal of
Plant Pathology: An International Journal of the Italian Phytopathological
Society, 105(3), 1207ââ¬â1208. https://doi.org/10.1007/s42161-023-01410-4
3.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Nakashima,
K.-I., Tomida, J., Hirai, T., Morita, Y., Kawamura, Y., & Inoue, M. (2017).
A new Isocoumarin Derivative from an Endophytic Fungus Thielavia sp. Isolated
from Crassulaovata. Heterocycles, 94(1), 117. https://doi.org/10.3987/com-16-13599
4.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Praciak,
A. (2022). Crassulaovata (jade plant). CABI Compendium, CABI
Compendium. https://doi.org/10.1079/cabicompendium.113574
5.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Puga,
T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177
6.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Sakhraoui,
N., Boudries, A., Hadef, A., Verloove, F., &Essl, F. (2023).
Aeoniumhaworthii Webb &Berthel. andCrassulaovata (Mill.) Druce (Crassulaceae):
New records for the Algerian alien flora. Bioinvasions Records, 12(4),
919ââ¬â930. https://doi.org/10.3391/bir.2023.12.4.05
7.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Smith,
G. F., Figueiredo, E., & Mort, M. E. (2017). Taxonomy of the three
arborescentcrassulas, Crassulaarborescens (Mill.) Willd. subsp. arborescens, C.
arborescens subsp. undulatifoliaToelken, and Crassulaovata (Mill.) Druce
(Crassulaceae) from southern Africa. Bradleya, 35(35), 87ââ¬â105. https://doi.org/10.25223/brad.n35.2017.a8
8.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Elmer,
W., Hines, D., &Schultes, N. P. (2023). First report of Fusariumlibertatis
causing vascular disease of Jade plant (Crassulaovata). Journal of
Plant Pathology: An International Journal of the Italian Phytopathological
Society, 105(3), 1207ââ¬â1208. https://doi.org/10.1007/s42161-023-01410-4
9.ÃÂ ÃÂ ÃÂ ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
10.ÃÂ ÃÂ
Praciak,
A. (2022). Crassulaovata (jade plant). CABI Compendium, CABI
Compendium. https://doi.org/10.1079/cabicompendium.113574
11.ÃÂ ÃÂ
Puga,
T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177
12.ÃÂ ÃÂ
Sakhraoui,
N., Boudries, A., Hadef, A., Verloove, F., &Essl, F. (2023).
Aeoniumhaworthii Webb &Berthel. andCrassulaovata (Mill.) Druce
(Crassulaceae): New records for the Algerian alien flora. Bioinvasions
Records, 12(4), 919ââ¬â930. https://doi.org/10.3391/bir.2023.12.4.05
13.ÃÂ ÃÂ
Smith,
G. F., Figueiredo, E., & Mort, M. E. (2017). Taxonomy of the three
arborescentcrassulas, Crassulaarborescens (Mill.) Willd. subsp. arborescens, C.
arborescens subsp. undulatifoliaToelken, and Crassulaovata (Mill.) Druce
(Crassulaceae) from southern Africa. Bradleya, 35(35), 87ââ¬â105. https://doi.org/10.25223/brad.n35.2017.a8
14.ÃÂ ÃÂ
Elmer,
W., Hines, D., &Schultes, N. P. (2023). First report of Fusariumlibertatis
causing vascular disease of Jade plant (Crassulaovata). Journal of
Plant Pathology: An International Journal of the Italian Phytopathological
Society, 105(3), 1207ââ¬â1208. https://doi.org/10.1007/s42161-023-01410-4
15.ÃÂ ÃÂ
Garibaldi,
A., Bertetti, D., Pensa, P., Poli, A., &Gullino, M. L. (2011). First Report
of Fusariumoxysporum Causing Wilt on Jade Plant (Crassulaovata) in
Italy. Plant Disease, 95(9), 1191. https://doi.org/10.1094/PDIS-12-10-0897
16.ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
17.ÃÂ ÃÂ
Praciak,
A. (2022). Crassulaovata (jade plant). CABI Compendium, CABI
Compendium. https://doi.org/10.1079/cabicompendium.113574
18.ÃÂ ÃÂ
Zhou,
S. N., Oakes, K. D., Servos, M. R., &Pawliszyn, J. (2009). Use of
simultaneous dual-probe microdialysis for the determination of pesticide
residues in a jade plant (Crassulaovata). The Analyst, 134(4),
748ââ¬â754. https://doi.org/10.1039/b811700d
19.ÃÂ ÃÂ
Elmer,
W., Hines, D., &Schultes, N. P. (2023). First report of Fusariumlibertatis
causing vascular disease of Jade plant (Crassulaovata). Journal of
Plant Pathology: An International Journal of the Italian Phytopathological
Society, 105(3), 1207ââ¬â1208. https://doi.org/10.1007/s42161-023-01410-4
20.ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
21.ÃÂ ÃÂ
Nakashima,
K.-I., Tomida, J., Hirai, T., Morita, Y., Kawamura, Y., & Inoue, M. (2017).
A new Isocoumarin Derivative from an Endophytic Fungus Thielavia sp. Isolated
from Crassulaovata. Heterocycles, 94(1), 117. https://doi.org/10.3987/com-16-13599
22.ÃÂ ÃÂ
Puga,
T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177
23.ÃÂ ÃÂ
Praciak,
A. (2022). Crassulaovata (jade plant). CABI Compendium, CABI
Compendium. https://doi.org/10.1079/cabicompendium.113574
24.ÃÂ ÃÂ
Sakhraoui,
N., Boudries, A., Hadef, A., Verloove, F., &Essl, F. (2023).
Aeoniumhaworthii Webb &Berthel. andCrassulaovata (Mill.) Druce
(Crassulaceae): New records for the Algerian alien flora. Bioinvasions
Records, 12(4), 919ââ¬â930. https://doi.org/10.3391/bir.2023.12.4.05
25.ÃÂ ÃÂ
Smith,
G. F., Figueiredo, E., & Mort, M. E. (2017). Taxonomy of the three
arborescentcrassulas, Crassulaarborescens (Mill.) Willd. subsp. arborescens, C.
arborescens subsp. undulatifoliaToelken, and Crassulaovata (Mill.) Druce
(Crassulaceae) from southern Africa. Bradleya, 35(35), 87ââ¬â105. https://doi.org/10.25223/brad.n35.2017.a8
26.ÃÂ ÃÂ
Wang,
Z. Q., Guillot, D., &López-Pujol, J. (2015). Crassulaovata,
unanuevaespeciealóctonapara China continental. CollectaneaBotanica, 34(0),
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27.ÃÂ ÃÂ
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et al. (2024). HPTLC Fingerprint Profile and Standardization of
PlantagoovataForssk. International Journal of Pharmaceutical and Bio-Medical
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28.ÃÂ ÃÂ
Erum,
A., Bashir, S., &Saghir, S. (2015). Modified and unmodified arabinoxylans
from Plantagoovata husk: Novel excipients with antimicrobial potential. Bangladesh
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29.ÃÂ ÃÂ
Muiruri,
M., &Mwangi, W. (2016). Phytochemical and antimicrobial activity of (Crassulaovata)
Jade plant on different strains of bacteria. European Journal of Medicinal
Plants, 11(1), 1ââ¬â12. https://doi.org/10.9734/ejmp/2016/19753
30.ÃÂ ÃÂ
Okur,
M. E., Ayla, Ã
ž., Ãâ¡içekPolat, D., Günal, M. Y., YoltaÃ
Ÿ, A., &Biçeroßlu, Ãâ.
(2018). Novel insight into wound healing properties of methanol extract of
CapparisovataDesf. var. palaestinaZohary fruits. The Journal of Pharmacy and
Pharmacology, 70(10), 1401ââ¬â1413. https://doi.org/10.1111/jphp.12977
31.ÃÂ ÃÂ
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T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177
32.ÃÂ ÃÂ
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V. V., Davydenko, P. Þ.,Kulishenko, O. ÃÅ., Borovik, I. V., &Brygadyrenko,
V. V. (2019). Antimicrobial activity of 50 plant extracts. Biosystems
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33.ÃÂ ÃÂ
Budzianowska,
A., Kikowska, M., & Budzianowski, J. (2024). Phenylethanoid glycosides
accumulation and antiradical activity of fractionated extracts of
PlantagoovataForssk. callus cultures lines. Plant Cell, Tissue and Organ
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34.ÃÂ ÃÂ
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S., Ãâ¡olak, B., AydemirSezer, ÃÅ.,Celepli, P., Bigat, I., DuymuÃ
Ÿ, M. E., Körez,
M. K., Hücümenoßlu, S., Kismet, K., &Ã
žahin, M. (2022). The effects of
Capparisovata seed oil on the healing of traumatic skin wounds. UlusalTravmaveAcilCerrahiDergisi
[Turkish Journal of Trauma & Emergency Surgery], 28(9),
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35.ÃÂ ÃÂ
Chakraborty,
S., &SenRaychaudhuri, S. (2024). Melatonin alleviates the toxic effects of
lead by modulating the antioxidative properties in Plantagoovata seedlings. ActaPhysiologiaePlantarum,
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36.ÃÂ ÃÂ
Duman,
H. (2013). The antioxidant effects of Capparisovata and deferasirox in patients
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37.ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
38.ÃÂ ÃÂ
Puga,
T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177
39.ÃÂ ÃÂ
Marahel,
S., &Umesha, S. (2016). Anti-inflammatory and antinociceptive effect of
Pachygoneovata leaves. Pharmaceutical Biology, 54(12), 3046ââ¬â3054.
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40.ÃÂ ÃÂ
Reddy,
P. R. T., Vandana, K. V., &Prakash, S. (2018). Antibacterial and
anti-inflammatory properties of PlantagoovataForssk. leaves and seeds against
periodontal pathogens: An in vitro study. Ayu, 39(4), 226ââ¬â229. https://doi.org/10.4103/ayu.AYU_176_16
41.ÃÂ ÃÂ
TaÃ
Ÿkñn,
T., TaÃ
Ÿkñn, D., Ãâ¡am, M. E., &Bulut, G. (2020). Phenolic compounds,
biological activities and trace elements of Capparisovata var. canescens. Revista
de Biologia Tropical, 68(2). https://doi.org/10.15517/rbt.v68i2.40215
42.ÃÂ ÃÂ
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S., Ãâ¡olak, B., AydemirSezer, ÃÅ.,Celepli, P., Bigat, I., DuymuÃ
Ÿ, M. E., Körez,
M. K., Hücümenoßlu, S., Kismet, K., &Ã
žahin, M. (2022). The effects of
Capparisovata seed oil on the healing of traumatic skin wounds. UlusalTravmaveAcilCerrahiDergisi
[Turkish Journal of Trauma & Emergency Surgery], 28(9),
1205ââ¬â1213. https://doi.org/10.14744/tjtes.2021.31526
43.ÃÂ ÃÂ
Jalilimanesh,
M., Azhdari, M., Mirjalili, A., Mozaffari, M. A., &Hekmatimoghaddam, S.
(2021). The comparison of clinical and histopathological effects of topical
psyllium (Plantagoovata) powder and silver sulfadiazine on second-degree burn
wound healing in rats. World Journal of Plastic Surgery, 10(1),
96ââ¬â103. https://doi.org/10.29252/wjps.10.1.96
44.ÃÂ ÃÂ
Okur,
M. E., Ayla, Ã
ž., Ãâ¡içekPolat, D., Günal, M. Y., YoltaÃ
Ÿ, A., &Biçeroßlu, Ãâ.
(2018). Novel insight into wound healing properties of methanol extract of
CapparisovataDesf. var. palaestinaZohary fruits. The Journal of Pharmacy and
Pharmacology, 70(10), 1401ââ¬â1413. https://doi.org/10.1111/jphp.12977
45.ÃÂ ÃÂ
Reddy,
P. R. T., Vandana, K. V., &Prakash, S. (2018). Antibacterial and
anti-inflammatory properties of PlantagoovataForssk. leaves and seeds against
periodontal pathogens: An in vitro study. Ayu, 39(4), 226ââ¬â229. https://doi.org/10.4103/ayu.AYU_176_16
46.ÃÂ ÃÂ
TaÃ
Ÿkñn,
T., TaÃ
Ÿkñn, D., Ãâ¡am, M. E., &Bulut, G. (2020). Phenolic compounds,
biological activities and trace elements of Capparisovata var. canescens. Revista
de Biologia Tropical, 68(2). https://doi.org/10.15517/rbt.v68i2.40215
47.ÃÂ ÃÂ
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O. O., Gazioglu, I., Kolak, U., Sen, A., &Topcu, G. (2017). A potential
therapeutic role in multiple sclerosis for stigmast-5,22-dien-3ò-olmyristate
isolated from Capparisovata. The Eurobiotech Journal, 1(3),
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48.ÃÂ ÃÂ
Cakar,
H., AkatSaracoglu, O., Akat, H., Kilic, C. C., &Adanacioglu, H. (2023). The
potential for using different substrates in green roofs. Journal of
Environmental Engineering and Landscape Management, 31(1), 44ââ¬â51. https://doi.org/10.3846/jeelm.2023.18487
49.ÃÂ ÃÂ
Duyen,
T. T. M. Y., Tuan, N. T., &Hoa, T. T. T. (2022). In vitro antibacterial
activity of tropical plant extracts against fish pathogens in Vietnam. Asian
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Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
51.ÃÂ ÃÂ
Karim,
A. (2016). Isolation of polysaccharides from Plantagoovata and their evaluation
as potential matrices for designing the controlled release floats of Piroxicam.
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52.ÃÂ ÃÂ
Guzmán
Guerrero, A. (2022). Fitorremediación de sueloscontaminados con arsénico,
cobre y plomoempleandoEcheveriaelegans y Crassulaovata [Universidad
AutonomaMetropolitana]. https://doi.org/10.24275/uama.6734.8738
53.ÃÂ ÃÂ
Nakashima,
K.-I., Tomida, J., Hirai, T., Morita, Y., Kawamura, Y., & Inoue, M. (2017).
A new Isocoumarin Derivative from an Endophytic Fungus Thielavia sp. Isolated
from Crassulaovata. Heterocycles, 94(1), 117. https://doi.org/10.3987/com-16-13599
54.ÃÂ ÃÂ
Praciak,
A. (2022). Crassulaovata (jade plant). CABI Compendium, CABI
Compendium. https://doi.org/10.1079/cabicompendium.113574
55.ÃÂ ÃÂ
Sakhraoui,
N., Boudries, A., Hadef, A., Verloove, F., &Essl, F. (2023).
Aeoniumhaworthii Webb &Berthel. andCrassulaovata (Mill.) Druce
(Crassulaceae): New records for the Algerian alien flora. Bioinvasions
Records, 12(4), 919ââ¬â930. https://doi.org/10.3391/bir.2023.12.4.05
56.ÃÂ ÃÂ
Smith,
G. F., Figueiredo, E., & Mort, M. E. (2017). Taxonomy of the three
arborescentcrassulas, Crassulaarborescens (Mill.) Willd. subsp. arborescens, C.
arborescens subsp. undulatifoliaToelken, and Crassulaovata (Mill.) Druce
(Crassulaceae) from southern Africa. Bradleya, 35(35), 87ââ¬â105. https://doi.org/10.25223/brad.n35.2017.a8
57.ÃÂ ÃÂ
Garibaldi,
A., Bertetti, D., Pensa, P., Poli, A., &Gullino, M. L. (2011). First Report
of Fusariumoxysporum Causing Wilt on Jade Plant (Crassulaovata) in
Italy. Plant Disease, 95(9), 1191. https://doi.org/10.1094/PDIS-12-10-0897
58.ÃÂ ÃÂ
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M. A., Muhammad, G., Jantan, I., &Bukhari, S. N. A. (2016).
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S., Kaul, S., Sharma, P., Gupta, M., Shankar, R., Jain, M., &Dhar, M. K.
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F., &Sivaraman, C. M. (2021). Scope of herbal mucilage in pharmaceutical
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Zhou,
S. N., Oakes, K. D., Servos, M. R., &Pawliszyn, J. (2009). Use of
simultaneous dual-probe microdialysis for the determination of pesticide
residues in a jade plant (Crassulaovata). The Analyst, 134(4),
748ââ¬â754. https://doi.org/10.1039/b811700d
62.ÃÂ ÃÂ
Aziz,
M., HashanArif, E. I., Muhammad Dimyati, N. I., Ishak, I. H., Hamdan, R. H.,
Syazwan, S. A., &Peng, T. L. (2021). Larvicidal Effect of VitexovataThunb.
(Lamiales: Lamiaceae) Leaf Extract towards Aedes (Stegomyia) aegypti (Linnaeus,
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63.ÃÂ ÃÂ
Cakar,
H., AkatSaracoglu, O., Akat, H., Kilic, C. C., &Adanacioglu, H. (2023). The
potential for using different substrates in green roofs. Journal of
Environmental Engineering and Landscape Management, 31(1), 44ââ¬â51. https://doi.org/10.3846/jeelm.2023.18487
64.ÃÂ ÃÂ
Keisandokht,
S., Orsat, V., Karboune, S., &GatamaneniLoganathan, B. (2022).
Microwave-assisted extraction of Ocimumbasilicum L. seed,
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compared with conventional heating extraction at optimum extraction conditions.
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65.ÃÂ ÃÂ
Puga,
T., Schafer, J., Buffalo, A., &Agbedanu, P. N. (2022). Broad Spectrum
Antimicrobial Potential of Crassulaovata. In bioRxiv. https://doi.org/10.1101/2022.01.20.477177