2.5.1.21	cell suspension culture	-	489841, 722843	
2.5.1.21	corona	-	489835	
2.5.1.21	cotyledon	petiole of cotyledon	689567	
2.5.1.21	exocarp	mRNA expression in stem and root are about twice as much as that in leaf and peel	758957	
2.5.1.21	fruit	significantly higher levels in fruits than in other tissues	746683	
2.5.1.21	Hep-G2 cell	-	658266, 673314	
2.5.1.21	hepatocyte	-	697143	
2.5.1.21	hepatocyte	primary	721838	
2.5.1.21	hepatoma cell	-	658266, 738940	
2.5.1.21	Huh-7.5.1 cell	-	738940	
2.5.1.21	hypocotyl	of seedling	689567	
2.5.1.21	latex	latex-predominant isoform	759950	
2.5.1.21	leaf	-	722843, 723165, 739290, 739582, 758980	
2.5.1.21	leaf	gene expression level is higher in roots as compared to the leaves	759271	
2.5.1.21	leaf	higher SQS comtent in younger than in mature leaves	723148	
2.5.1.21	leaf	highly expressed in roots, followed by the stems and leaves	759803	
2.5.1.21	leaf	low activity	489852, 746683	
2.5.1.21	leaf	mRNA expression in stem and root are about twice as much as that in leaf and peel	758957	
2.5.1.21	leaf	vascular tissue of leaf	689567	
2.5.1.21	liver	-	489833, 489834, 489836, 489837, 489840, 489842, 489847, 675266, 684697, 688316, 703278, 721801, 721802, 759842	
2.5.1.21	meristem	main source	489852	
2.5.1.21	additional information	constitutive expression in all tissues examined	687473	
2.5.1.21	additional information	isoform Sqs1 is widely expressed in all tissues throughout plant development	689567	
2.5.1.21	additional information	quantitative real-time PCR tissue expression analysis, overview. WsSQS expresses more in young leaves than mature leaves, stem and root	723148	
2.5.1.21	additional information	SqS expression is 14.3% higher in leaves compared to roots, semi-quantitative RT-PCR expression analysis, ovverview. CbSqS shows distinct pattern of expression in leaf and root tissues	723165	
2.5.1.21	additional information	the age and type of donor tissue play crucial roles in the biochemistry of subsequent cultures lines. In vitro cultures have differential capacity to synthesize secondary metabolites depending on the morphological nature of type of explant utilized	739290	
2.5.1.21	additional information	tissue real-time RTPCR expression analysis, the enzyme is expressed constitutively in all tested tissues, with the highest expression in stems	722107	
2.5.1.21	mycelium	expression level is relatively low in mycelia incubated for 12 days, increases after 14 to 20 days of incubation, and reaches a relatively high level in the mushroom primordia	688310	
2.5.1.21	primordium	expression level is relatively low in mycelia incubated for 12 days, increases after 14 to 20 days of incubation, and reaches a relatively high level in the mushroom primordia	688310	
2.5.1.21	prostate cancer cell line	-	674822	
2.5.1.21	root	-	658181, 723148, 723165, 723497, 739290	
2.5.1.21	root	gene expression level is higher in roots as compared to the leaves	759271	
2.5.1.21	root	highest expression	687473	
2.5.1.21	root	highly expressed in roots, followed by the stems and leaves	759803	
2.5.1.21	root	induction of enzyme by methyl jasmonate treatment, enhanced activity results in increase in phytosterols as well as ginsenoside contents	660150	
2.5.1.21	root	low activity	489852, 746683	
2.5.1.21	root	mRNA expression in stem and root are about twice as much as that in leaf and peel	758957	
2.5.1.21	root nodule	-	658181	
2.5.1.21	seedling	-	722843	
2.5.1.21	shoot	-	722843	
2.5.1.21	shoot	shoot apex	660150	
2.5.1.21	stem	-	722107, 723148, 723165, 739290	
2.5.1.21	stem	highly expressed in roots, followed by the stems and leaves	759803	
2.5.1.21	stem	low activity	746683	
2.5.1.21	stem	mRNA expression in stem and root are about twice as much as that in leaf and peel	758957