1.14.14.137	cell suspension culture	-	661056, 661348, 662532, 663039, 663111	
1.14.14.137	fruit	-	706376, 746066	
1.14.14.137	fruit	all four CYP707As are expressed at varying intensities throughout sweet cherry fruit development, expression pattern of CYP707A1, overview	-, 712862	
1.14.14.137	fruit	all four CYP707As are expressed at varying intensities throughout sweet cherry fruit development, expression pattern of CYP707A2, overview	-, 712862	
1.14.14.137	fruit	all four CYP707As are expressed at varying intensities throughout sweet cherry fruit development, expression pattern of CYP707A3, overview	-, 712862	
1.14.14.137	fruit	all four CYP707As are expressed at varying intensities throughout sweet cherry fruit development, expression pattern of CYP707A4, overview	-, 712862	
1.14.14.137	guard cell	major site of CYP707A1 and CYP707A3 expression	706300	
1.14.14.137	leaf	-	706304, 745629, 746066, 746269	
1.14.14.137	additional information	after-ripened coleorhiza	706301	
1.14.14.137	additional information	expression profiles of isozyme genes during fruit development and under stress conditions are analyzed by quantitative reverse transcriptase polymerase chain reaction, detailed overview	746066	
1.14.14.137	additional information	expression profiles of isozyme genes during fruit development and under stress conditions are analyzed by quantitative reverse transcriptase polymerase chain reaction, detailed overview. During fruit development, the expression level of MaCYP707A3 is higher at the primary stage and then sharply declines to a lower level at the late stage	746066	
1.14.14.137	additional information	expression profiles of isozyme genes during fruit development and under stress conditions are analyzed by quantitative reverse transcriptase polymerase chain reaction, detailed overview. During fruit development, the expression level of MaCYP707A5 id higher at the primary stage and then sharply declines to a lower level at the late stage	746066	
1.14.14.137	additional information	expression profiles of isozyme genes during fruit development and under stress conditions are analyzed by quantitative reverse transcriptase polymerase chain reaction, detailed overview. During fruit development, the expression level of MaCYP707A6 is higher at the primary stage and then sharply declines to a lower level at the late stage	746066	
1.14.14.137	additional information	expression profiles of isozyme genes during fruit development and under stress conditions are analyzed by quantitative reverse transcriptase polymerase chain reaction, detailed overview. During fruit development, the expression levels of MaCYP707A1, is higher at the primary stage and then sharply declines to a lower level at the late stage. The expression of MaCYP707A1 in the fruit quickly declines at treatment with inhibitor uniconazole	746066	
1.14.14.137	additional information	high level in plant placenta	706376	
1.14.14.137	additional information	isozymes AhCYP707A1 and AhCYP707A2 are expressed ubiquitously in peanut roots, stems, and leaves with different transcript accumulation levels, including the higher expression of AhCYP707A1 in roots	746269	
1.14.14.137	pericarp	low level	706376	
1.14.14.137	plant embryo	-	706301	
1.14.14.137	plant ovary	-	706376	
1.14.14.137	plant ovule	high level	706376	
1.14.14.137	root	-	746096, 746269	
1.14.14.137	root	high expression	746269	
1.14.14.137	seed	-	705948, 706360, 746066	
1.14.14.137	seed	CYP707A2 transcription is much higher than the other CYP707A genes	705948	
1.14.14.137	seed	CYP707A4 transcription is the lowest of the CYP707A genes	705948	
1.14.14.137	seed	expression of ABA8ox3 is greatest among the three ABA8ox genes, while ABA8ox1 is hardly detected during germination	706181	
1.14.14.137	seedling	-	689492, 700781, 745629, 746269	
1.14.14.137	seedling	spatiotemporal expression pattern of TaCYP707A1B gene in hexaploid wheat	746158	
1.14.14.137	shoot	-	689492	
1.14.14.137	shoot	CYP707A3 plays a major role in regulating abscisic acid levels, whereas CYP707A1 plays a minor role in regulating abscisic acid levels in shoots	706300	
1.14.14.137	silique	CYP707A1 transcripts are highly abundant in the silique	746158	
1.14.14.137	stem	-	746269	
1.14.14.137	stoma	-	706300	
1.14.14.137	tuber	-	728206	
1.14.14.137	vascular tissue	major site of CYP707A1 and CYP707A3 expression	706300