Construction of transgenic <i>Ipomoea obscura</i> that exhibits new reddish leaf and flower colors due to introduction of β-carotene ketolase and hydroxylase genes

Abstract: Ipomoea obscura, small white morning glory, is an ornamental plant belonging to the family Convolvulaceae, and cultivated worldwide. I. obscura generates white petals including a pale-yellow colored star-shaped center (flower vein). Its fully opened flowers were known to accumulate trace amounts of carotenoids such as β-carotene. In the present study, the embryogenic calli of I. obscura, were successfully produced through its immature embryo culture, and co-cultured with Agrobacterium tumefaciens carrying the … Show more

“…The study of five cultivars, including the mutant Oranzheva kapia, showed that two hydroxylase genes, encoding CrtZchr03 and CrtZchr06, are present in pepper on chromosomes 3 and 6, and that deletion of the CrtZchr03 gene resulted in an increase in β-carotene accumulation [12]. Cotransformation of the genes responsible for β-carotene, 4,4 -ketolase (CrtW) and β-carotene 3,3 -hydroxylase (CrtZ), has been utilized to engineer transgenic organisms capable of producing astaxanthin, a naturally occurring carotenoid pigment known for its antioxidant properties and vibrant red-orange coloration [13]. In E. coli, the production of zeaxanthin was significantly enhanced by optimizing the codons of the CrtZ, CrtY, and CrtI genes, resulting in a 10-fold increase in zeaxanthin yield [14].…”

Fast and High-Efficiency Synthesis of Capsanthin in Pepper by Transient Expression of Geminivirus

“…The study of five cultivars, including the mutant Oranzheva kapia, showed that two hydroxylase genes, encoding CrtZchr03 and CrtZchr06, are present in pepper on chromosomes 3 and 6, and that deletion of the CrtZchr03 gene resulted in an increase in β-carotene accumulation [12]. Cotransformation of the genes responsible for β-carotene, 4,4 -ketolase (CrtW) and β-carotene 3,3 -hydroxylase (CrtZ), has been utilized to engineer transgenic organisms capable of producing astaxanthin, a naturally occurring carotenoid pigment known for its antioxidant properties and vibrant red-orange coloration [13]. In E. coli, the production of zeaxanthin was significantly enhanced by optimizing the codons of the CrtZ, CrtY, and CrtI genes, resulting in a 10-fold increase in zeaxanthin yield [14].…”

Fast and High-Efficiency Synthesis of Capsanthin in Pepper by Transient Expression of Geminivirus

Biotechnological production of β-carotene using plant in vitro cultures