TY  - BOOK
AU  - Fatma Ahmed Bahgat, 
AU  - Osama Konsowa Ahmed
AU  - Amr Abdelmotagaly Nassrallah
AU  - Hanaa Hussein Abd El Baky
TI  - Green synthesized silver nanoparticles using spirulina extract for secondary metabolite-production in tissue culture tichnique
U1  - 632.95 
PY  - 2025///
KW  - Agricultural Biochemistry
KW  - Ø§ÙÙÙÙÙØ§Ø¡ Ø§ÙØ­ÙÙÙØ©
KW  - Cell suspension cultures
KW  - Secondary metabolites
KW  - Spirulina platensis
KW  - spirulina silver nanoparticles
KW  - polyphenols
KW  - antioxidant activity
KW  - ÙØ²Ø§Ø±Ø¹ Ø§ÙØ®ÙØ§ÙØ§ Ø§ÙÙØ¹ÙÙÙØ©
KW  - Ø§ÙÙØ±ÙÙØ¨Ø§Øª Ø§ÙØ«Ø§ÙÙÙØ©
N1  - Thesis (M.Sc)-Cairo University, 2025; Bibliography: pages 83-112.; Issues also as CD
N2  - This study describes the influence of biosynthesized silver nanoparticles 
(Ag-NPs) on phytochemicals and their activities in the cell suspension cultures 
(CSC) of Zantedeschia aethiopica. To determine the effect of spirulina aqueous 
extract (SAE), plant growth regulators, and SP-AgNPs on the accumulation of 
biomass and bioactive compounds in CSC of Zantedeschia aethiopica. The 
medium comprising MS salts and sucrose (30 g/L) with 1.5 g/L of SAE and SP-
AgNPs at 30 days of CSC was appropriate for biomass and bioactive compound 
accumulation. SP-AgNPs (5 mg/L) elicited CSC extracts that had significantly 
enhanced the production of total phenolic content (TPC) (4.27 mg/g-FW), total 
flavonoid content (TFC) (3.88 mg/g FW), and DPPH radical scavenging assay 
(RSA) (80.03%) compared to the control CSC extracts for TPC, TFC, and DPPH 
(0.61, 0.42 mg/g, and 48.80% respectively). The contents of superoxide dismutase 
(SOD), peroxidase (POD), and catalase (CAT) were highly elevated in SP-AgNPs 
(5 mg/L)-elicited CSC ( 4.5,3.3, and 2.5 U/mg respectively) when compared with 
non-elicited CSC. SP-AgNPs elicited CSC showed more phenolic compounds 
(1422.28Âµg/g) than the control CSC (306.31 Âµg/g). Because of these metabolic 
changes, the secondary metabolites produced in the SP-AgNPs -elicited CSC 
extracts of Zantedeschia aethiopica. The study suggested the effectiveness of the 
elicitation process in enhancing the accumulation of phenolic and flavonoid 
compounds and antioxidant activities. SP-AgNPs-elicited CSC offered an 
effective and favorable in vitro method to improve the production of bioactive 
compounds (secondary metabolites).; ØªØ´Ø±Ø­ ÙØ°Ù Ø§ÙØ¯Ø±Ø§Ø³Ø© ÙÙÙ ØªØªØ£Ø«Ø± Ø§ÙÙÙØ§Ø¯ Ø§ÙÙÙØªÙÙÙÙÙØ§Ø¦ÙØ© (Ø§ÙÙØ±ÙØ¨Ø§Øª Ø§ÙÙØ¨Ø§ØªÙØ© Ø§ÙÙØ¹Ø§ÙØ©) ÙØ£ÙØ´Ø·ØªÙØ§ ÙÙ ÙØ²Ø§Ø±Ø¹ Ø§ÙØ®ÙØ§ÙØ§ Ø§ÙÙØ¹ÙÙÙØ© ÙÙØ¨Ø§Øª Zantedeschia aethiopica (Calla lily) Ø¨Ø¬Ø²ÙØ¦Ø§Øª Ø§ÙÙØ¶Ø© Ø§ÙÙØ§ÙÙÙØ© Ø§ÙÙÙØ®ÙÙØ© Ø­ÙÙÙÙØ§ Ø¨Ø§Ø³ØªØ®Ø¯Ø§Ù ÙØ³ØªØ®ÙØµ Ø§ÙØ³Ø¨ÙØ±ÙÙÙÙØ§ (SP-AgNPs).Ø§ÙØ³ØªØ®Ø¯Ù ÙØ³Ø· MS ÙØ­ØªÙÙ Ø¹ÙÙ Ø³ÙØ±ÙØ² (30 Ø¬Ù/ÙØªØ±)Ø ÙÙØ³ØªØ®ÙØµ Ø³Ø¨ÙØ±ÙÙÙÙØ§ (1.5 Ø¬Ù/ÙØªØ±)Ø ÙØ¬Ø²ÙØ¦Ø§Øª SP-AgNPsØ Ø­ÙØ« Ø£Ø¸ÙØ± Ø§ÙØªØ±ÙÙØ² 5 ÙÙØ¬Ù/ÙØªØ± Ø£ÙØ¶Ù Ø§ÙÙØªØ§Ø¦Ø¬ ÙÙ ØªØ¹Ø²ÙØ² Ø§ÙÙØªÙØ© Ø§ÙØ­ÙÙÙØ© ÙØ§ÙÙØ±ÙØ¨Ø§Øª Ø§ÙÙØ´Ø·Ø© Ø¨ÙÙÙÙØ¬ÙÙØ§.Ø§Ø±ØªÙØ¹ Ø§ÙÙØ­ØªÙÙ Ø§ÙÙÙÙ ÙÙÙÙÙÙÙØ§Øª (TPC = 4.27 ÙÙØ¬Ù/Ø¬Ù FW) ÙØ§ÙÙÙØ§ÙÙÙÙÙØ¯Ø§Øª (TFC = 3.88 ÙÙØ¬Ù/Ø¬Ù FW) ÙØ§ÙÙØ´Ø§Ø· Ø§ÙÙØ¶Ø§Ø¯ ÙÙØ£ÙØ³Ø¯Ø© (DPPH RSA = 80.03%) ÙÙØ§Ø±ÙØ© Ø¨Ø§ÙÙØ²Ø§Ø±Ø¹ ØºÙØ± Ø§ÙÙØ¹Ø§ÙÙØ©.ÙÙØ§ Ø²Ø§Ø¯Øª Ø£ÙØ´Ø·Ø© Ø§ÙØ¥ÙØ²ÙÙØ§Øª Ø§ÙÙØ¶Ø§Ø¯Ø© ÙÙØ£ÙØ³Ø¯Ø© SOD (4.5)Ø POD (3.3)Ø ÙCAT (2.5 ÙØ­Ø¯Ø©/ÙÙØ¬Ù).Ø¨ÙØº ØªØ±ÙÙØ² Ø§ÙÙØ±ÙØ¨Ø§Øª Ø§ÙÙÙÙÙÙÙØ© ÙÙ Ø§ÙÙØ²Ø§Ø±Ø¹ Ø§ÙÙØ¹Ø§ÙÙØ© 1422.28 ÙÙÙØ±ÙØ¬Ø±Ø§Ù/Ø¬Ù ÙÙØ§Ø¨Ù 306.31 ÙÙÙØ±ÙØ¬Ø±Ø§Ù/Ø¬Ù ÙÙ ØºÙØ± Ø§ÙÙØ¹Ø§ÙÙØ©.ØªØ´ÙØ± Ø§ÙÙØªØ§Ø¦Ø¬ Ø¥ÙÙ Ø£Ù Ø§ÙØªØ­ÙÙØ² Ø¨Ø¬Ø²ÙØ¦Ø§Øª SP-AgNPs Ø³Ø§ÙÙ Ø¨ÙØ¶ÙØ­ ÙÙ ØªØ¹Ø²ÙØ² ØªØ±Ø§ÙÙ Ø§ÙÙØ±ÙØ¨Ø§Øª Ø§ÙÙÙÙÙÙÙØ© ÙØ§ÙÙÙØ§ÙÙÙÙÙØ¯ÙØ© ÙØªØ­Ø³ÙÙ Ø§ÙÙØ´Ø§Ø· Ø§ÙÙØ¶Ø§Ø¯ ÙÙØ£ÙØ³Ø¯Ø© ÙÙ ÙØ²Ø§Ø±Ø¹ Ø§ÙØ®ÙØ§ÙØ§ Ø§ÙÙØ¹ÙÙÙØ© ÙÙØ¨Ø§Øª Zantedeschia aethiopica
ER  -