Alizadeh, Z., Ahmadi, D. N., Mohammadi, M., Karimizadeh, R. A., Memari, H. R., & Bahmankar, M. (2016). Assessment of molecular variation in pea germplasm using RAPD markers. Electronic J. of Bio, 12(1), 22-27.
Bakhshi Khaniki, G., Ghasemi, M., & Bairamizadeh, E. (2011). Study of Micropropagation of Anthurium Andreanum Using Tissue Culture [Research Article]. New Cellularand Molecular Biotechnology Journal, 1(4), 79-87. http://ncmbjpiau.ir/article-1-32-fa.html
Bahmankar, M., Rahnama, H., Salehi, M., & Noori, S. A. S. (2024). Somatic embryogenesis and genetic fidelity in camelina by RAPD markers and flow cytometry. Plant Cell, Tissue and Organ Culture (PCTOC), 156(3), 67.
Biglari farash, R. , Kheiri, A. and sani khani, M. (2024). The use of leaf and internode explants and different combinations of growth regulators for callus formation, regeneration and root formation of black bean plant (Hyoscyamus niger L.). Research in Plant Metabolites, 1(4), 93-111. doi: 10.22034/jrpsm.2024.448661.1034
Cárdenas-Aquino, M. d. R., Camas-Reyes, A., Valencia-Lozano, E., López-Sánchez, L., Martínez-Antonio, A., & Cabrera-Ponce, J. L. (2023). The Cytokinins BAP and 2-iP modulate different molecular mechanisms on shoot proliferation and Root Development in Lemongrass (Cymbopogon citratus). Plants, 12(20), 3637.
Chai, L. C., Alderson, P. G., & Chin, C. F. (2024). Exogenous Cytokinin Induces Callus and Protocorm-Like-Bodies Formation in In Vitro Root Tips of Vanilla planifolia Andrews. Tropical Life Sciences Research, 35(1), 235.
del Rivero, N., Agramonte, D., Barbón, R., Camacho, W., Collado, R., Jiménez-Terry, F., Pérez, M. and Gutiérrez, O. (2006). Inducción y formación de callos de Anthurium andraeanum variedad  ‘LambadaÂ’a partir de secciones foliares de plantas in vitro. Biotecnología Vegetal, 6 (1). 35-40.
Elowni, E. E., Abdelnabi, G. H., & Ahmad, M. F. (2024). Sodium hypochlorite: Optimization of application as an exsheathing agent for nematode larvae to minimize the risk of reduced viability. Veterinary Medicine and Public Health Journal, 5(3), 216-220.
Farsi, M., & Zolali, J. (2003). Principles of plant biotechnology. Translate Mashhad University Publication, 495.
Fauzan, Y. S. A., & Tajuddin, T. (2017). Efektivitas Merkuri Klorida (HgCl2) Pada Sterilisasi Tunas Samping Jati (Tectona Grandis) In Vitro. Jurnal Bioteknologi dan Biosains Indonesia, 4(2), 78-84.
Kalantary, R., & Mashayekhi, M. (2013). Anthurium micropropagation techniques using somatic embryogenesis. Iran's third national conference on agricultural biotechnology. https://civilica.com/doc/204485
Khorrami Raad, M., Shoor, M., Hamidoghli, Y., Tehranifar, A., Nemati, S. H., & Salehifar, M. (2011). Effects of Growth Regulators on in vitro Micropropagation of two Commercial Varieties of Anthurium andraeanum. Journal Of Horticultural Science, 25(2), 137-146. https://doi.org/10.22067/jhorts4.v1390i0.9982
Kuleshova, T., Panova, G., Gall, N., & Galushko, A. (2023). Concentration cell based on electrogenic processes in the root environment. Technical Physics Letters, 49(Suppl 4), S376-S379.
Li, C., Qiu, J., Huang, S., Yin, J., & Yang, G. (2019). AaMYB3 interacts with AabHLH1 to regulate proanthocyanidin accumulation in Anthurium andraeanum (Hort.)—another strategy to modulate pigmentation. Horticulture Research, 6.
Li, C., Yang, G., Huang, S., Lü, D., Wang, C., Chen, J., & Yin, J. (2013). Characterisation of flavonoids in anthurium spathes and their contribution to spathe colouration. The Journal of Horticultural Science and Biotechnology, 88(2), 208-215.
Maira, O., Alexander, M., & Vargas, T. E. (2010). Micropropagation and organogenesis of Anthurium andreanum Lind cv Rubrun. Protocols for In Vitro Propagation of Ornamental Plants, 3-14.
Martin, K., Joseph, D., Madasser, J., & Philip, V. (2003). Direct shoot regeneration from lamina explants of two commercial cut flower cultivars of Anthurium andraeanum Hort. In Vitro Cellular & Developmental Biology-Plant, 39, 500-504.
Mireles-Ordaz, J., Arellano-Perusquia, A., Espinal-Centeno, A., Sánchez-Segura, L., Estrada-Luna, A. A., & Cruz-Ramírez, A. (2015). Reprogramación celular de embriones de Anthurium andraeanum por fitohormonas para micropropagación masiva. Nova scientia, 7(15), 49-67.
Nazir, M., Sadat, S., & Soltani Howyzeh, M. (2019). The effect of different hormone combinations on direct and indirect somatic embryogenesis in Agave americana. Plant Physiology, 9(2), 2739-2747. https://doi.org/10.22034/ijpp.2019.664579
Niazian, M., Howyzeh, M. S., & Sadat-Noori, S. A. (2021). Integrative effects of stress-and stress tolerance-inducing elicitors on in vitro bioactive compounds of ajowan [Trachyspermum ammi (L.) Sprague] medicinal plant. Plant Cell, Tissue and Organ Culture (PCTOC), 146(3), 589-604.
Osorio-Guarín, J. A., Gopaulchan, D., Quanckenbush, C., Lennon, A. M., Umaharan, P., & Cornejo, O. E. (2021). Comparative transcriptomic analysis reveals key components controlling spathe color in Anthurium andraeanum (Hort.). PloS one, 16(12), e0261364.
Praveen, R., & Nair, A. (2014). Callus induction and multiplication of internodal explants of Myxopyrum smilacifolium Blume.
RahimBarshi, M. , GhasemNejad, A. , Alizadeh, M. and Yamechi, A. (2024). Effect of salt stress on secondary metabolites and growth behavior of artichoke in vitro. Research in Plant Metabolites, 2(1), 19-38. doi: 10.22034/jrpsm.2024.460256.1039
Sadat-Noori, S. A., Niazian, M., Soltani Howyzeh, M., & Amiripoor, M. (2018). Ajowan Medicinal Plant (Botany, Medicinal Properties, Agronomy, Plant Breeding and Biotechnology). Academic Center of Education Culture and Research-Tehran Branch.
Sadat, S., Hoveize, M. S., Mojadam, M., & Marashi, S. K. (2011). The study of callus induction and regeneration potential of sugarcane, varieties SP70-1143 and CP76-331. World Applies Sciences Journal, 13(5), 1106-1111.
Šmeringai, J., Schrumpfová, P. P., & Pernisová, M. (2023). Cytokinins–regulators of de novo shoot organogenesis. Frontiers in plant science, 14, 1239133.
Vargas, T. E., Mejías, A., Oropeza, M., & De García, E. (2004). Plant regeneration of Anthurium andreanum cv Rubrun. Electronic Journal of Biotechnology, 7(3), 10-11.
Weng, Z., Li, G., Sale, P., & Tang, C. (2022). Application of calcium nitrate with phosphorus promotes rhizosphere alkalization in acid subsoil. European Journal of Soil Science, 73(1), e13153.