| PubMed: | Testing the Münch hypothesis of long distance phloem transport in plants. |
| PubMed: | A Stowaway transposon disrupts the InWDR1 gene controlling flower and seed coloration in a medicinal cultivar of the Japanese morning glory. |
| PubMed: | The Petal-Specific InMYB1 Promoter Functions by Recognizing Petaloid Cells. |
| PubMed: | Spontaneous mutations of the UDP-glucose:flavonoid 3-O-glucosyltransferase gene confers pale- and dull-colored flowers in the Japanese and common morning glories. |
| PubMed: | A petal-specific InMYB1 promoter from Japanese morning glory: a useful tool for molecular breeding of floricultural crops. |
| PubMed: | De novo transcriptome assembly of Ipomoea nil using Illumina sequencing for gene discovery and SSR marker identification. |
| PubMed: | Endogenous factors regulating poor-nutrition stress-induced flowering in pharbitis: The involvement of metabolic pathways regulated by aminooxyacetic acid. |
| PubMed: | Climatic factors influence leaf structure and thereby affect the ozone sensitivity of Ipomoea nil 'Scarlet O'Hara'. |
| PubMed: | Identification of antitumor lignans from the seeds of morning glory (Pharbitis nil). |
| PubMed: | Identification of a NAC transcription factor, EPHEMERAL1, that controls petal senescence in Japanese morning glory. |
| PubMed: | Stress enhances the gene expression and enzyme activity of phenylalanine ammonia-lyase and the endogenous content of salicylic acid to induce flowering in pharbitis. |
| PubMed: | Expression of an AtNAP gene homolog in senescing morning glory (Ipomoea nil) petals of two cultivars with a different flower life span. |
| PubMed: | Length of the dark period affects flower opening and the expression of circadian-clock associated genes as well as xyloglucan endotransglucosylase/hydrolase genes in petals of morning glory (Ipomoea nil). |
| PubMed: | A chalcone isomerase-like protein enhances flavonoid production and flower pigmentation. |
| PubMed: | Optimization of polysaccharides extraction from seeds of Pharbitis nil and its anti-oxidant activity. |
| PubMed: | Detection of phytochrome-like genes from Rhazya stricta (Apocynaceae) using de novo genome assembly. |
| PubMed: | The involvement of InMIR167 in the regulation of expression of its target gene InARF8, and their participation in the vegetative and generative development of Ipomoea nil plants. |
| PubMed: | Stress and salicylic acid induce the expression of PnFT2 in the regulation of the stress-induced flowering of Pharbitis nil. |
| PubMed: | Pharbinilic acid, an allogibberic acid from morning glory (Pharbitis nil). |
| PubMed: | Seasonal characterization of antioxidant responses in plants of Ipomoea nil cv. Scarlet O'Hara. |
| PubMed: | Development of EST-SSR markers of Ipomoea nil. |
| PubMed: | Interactions among LOX metabolites regulate temperature-mediated flower bud formation in morning glory (Pharbitis nil). |
| PubMed: | The calcium-dependent protein kinase (PnCDPK1) is involved in Pharbitis nil flowering. |
| PubMed: | Critical analysis of the potential of Ipomoea nil'Scarlet O'Hara' for ozone biomonitoring in the sub-tropics. |
| PubMed: | A WD40-repeat protein controls proanthocyanidin and phytomelanin pigmentation in the seed coats of the Japanese morning glory. |
| PubMed: | Reversal of multidrug resistance by morning glory resin glycosides in human breast cancer cells. |
| PubMed: | Bioactive phenolic constituents from the seeds of Pharbitis nil. |
| PubMed: | The efficiency of tobacco Bel-W3 and native species for ozone biomonitoring in subtropical climate, as revealed by histo-cytochemical techniques. |
| PubMed: | The redox state of Ipomoea nil 'Scarlet O'Hara' growing under ozone in a subtropical area. |
| PubMed: | Constitutive expression of the GIGANTEA ortholog affects circadian rhythms and suppresses one-shot induction of flowering in Pharbitis nil, a typical short-day plant. |
| PubMed: | Two new phenolic amides from the seeds of Pharbitis nil. |
| PubMed: | Quantitative analysis of regulatory flexibility under changing environmental conditions. |
| PubMed: | Acylated glycosides of hydroxy fatty acid methyl esters generated from the crude resin glycoside (pharbitin) of seeds of Pharbitis nil by treatment with indium(III) chloride in methanol. |
| PubMed: | Induction of apoptotic cell death by Pharbitis nil extract in HER2-overexpressing MCF-7 cells. |
| PubMed: | Remediation of petroleum contaminated soils by joint action of Pharbitis nil L. and its microbial community. |
| PubMed: | Stress-induced flowering. |
| PubMed: | Epigenetic regulation of photoperiodic flowering. |
| PubMed: | Metabonomic study of biochemical changes in the urine of Morning Glory Seed treated rat. |
| PubMed: | Reduction in the critical dark length for flower induction during aging in the short-day plant Pharbitis nil var. Kidachi. |
| PubMed: | Flowering and dwarfism induced by DNA demethylation in Pharbitis nil. |
| PubMed: | Studies of mitochondrial morphology and DNA amount in the rice egg cell. |
| PubMed: | Carotenoid composition and carotenogenic gene expression during Ipomoea petal development. |
| PubMed: | Salicylic acid and the flowering gene FLOWERING LOCUS T homolog are involved in poor-nutrition stress-induced flowering of Pharbitis nil. |
| PubMed: | The putative miR172 target gene InAPETALA2-like is involved in the photoperiodic flower induction of Ipomoea nil. |
| PubMed: | Diterpene glycosides from the seeds of Pharbitis nil. |
| PubMed: | Expression of allene oxide cyclase from Pharbitis nil upon theobroxide treatment. |
| PubMed: | Autophagy regulates progression of programmed cell death during petal senescence in Japanese morning glory. |
| PubMed: | Homologs of genes associated with programmed cell death in animal cells are differentially expressed during senescence of Ipomoea nil petals. |
| PubMed: | Identification of r mutations conferring white flowers in the Japanese morning glory (Ipomoea nil). |
| PubMed: | InPSR26, a putative membrane protein, regulates programmed cell death during petal senescence in Japanese morning glory. |
| PubMed: | Structure and biological activity of novel FN analogs as flowering inducers. |
| PubMed: | The Helper Component-Proteinase of Sweet potato feathery mottle virus Facilitates Systemic Spread of Potato virus X in Ipomoea nil. |
| PubMed: | Characterization of the phenylalanine ammonia-lyase gene (SlPAL5) from tomato (Solanum lycopersicum L.). |
| PubMed: | Effect of light on soluble guanylyl cyclase activity in Pharbitis nil seedlings. |
| PubMed: | Ethylene and ABA interactions in the regulation of flower induction in Pharbitis nil. |
| PubMed: | Light- and IAA-regulated ACC synthase gene (PnACS) from Pharbitis nil and its possible role in IAA-mediated flower inhibition. |
| PubMed: | Intracellular distribution of phototropin 1 protein in the short-day plant Ipomoea nil. |
| PubMed: | PnMADS1, encoding an StMADS11-clade protein, acts as a repressor of flowering in Pharbitis nil. |
| PubMed: | The gravity-regulated growth of axillary buds is mediated by a mechanism different from decapitation-induced release. |
| PubMed: | Induction of flowering by 5-azacytidine in some plant species: relationship between the stability of photoperiodically induced flowering and flower-inducing effect of DNA demethylation. |
| PubMed: | Triterpenoid saponins from the seeds of Pharbitis nil. |
| PubMed: | [Morning glory mutants induced by transposable elements in the Edo era]. |
| PubMed: | A circadian rhythm set by dusk determines the expression of FT homologs and the short-day photoperiodic flowering response in Pharbitis. |
| PubMed: | Involvement of cyclic GMP in phytochrome-controlled flowering of Pharbitis nil. |
| PubMed: | Identification and characterization of an Ipomoea nil glucosyltransferase which metabolizes some phytohormones. |
| PubMed: | Relationship between petal abscission and programmed cell death in Prunus yedoensis and Delphinium belladonna. |
| PubMed: | Gene expression in opening and senescing petals of morning glory (Ipomoea nil) flowers. |
| PubMed: | The FEATHERED gene is required for polarity establishment in lateral organs especially flowers of the Japanese morning glory (I pomoea nil ). |
| PubMed: | A reappraisal of the role of abscisic acid and its interaction with auxin in apical dominance. |
| PubMed: | Nuclear fragmentation and DNA degradation during programmed cell death in petals of morning glory (Ipomoea nil). |
| PubMed: | Inhibitory role of gibberellins in theobroxide-induced flowering of Pharbitis nil. |
| PubMed: | Isolation of cDNAs for R2R3-MYB, bHLH and WDR transcriptional regulators and identification of c and ca mutations conferring white flowers in the Japanese morning glory. |
| PubMed: | N1,N10-ditigloylspermidine, a novel alkaloid from the seeds of Ipomoea nil. |
| PubMed: | Shoot circumnutation and winding movements require gravisensing cells. |
| PubMed: | Preparation of proteins from different organs of Japanese morning glory by an in vivo electro-elution procedure. |
| PubMed: | Acylated peonidin glycosides from duskish mutant flowers of Ipomoea nil. |
| PubMed: | Japanese morning glory dusky mutants displaying reddish-brown or purplish-gray flowers are deficient in a novel glycosylation enzyme for anthocyanin biosynthesis, UDP-glucose:anthocyanidin 3-O-glucoside-2''-O-glucosyltransferase, due to 4-bp insertions in the gene. |
| PubMed: | Characterization of a novel Na+/H+ antiporter gene InNHX2 and comparison of InNHX2 with InNHX1, which is responsible for blue flower coloration by increasing the vacuolar pH in the Japanese morning glory. |
| PubMed: | Characterization of a member of the AN subfamily, IAN, from Ipomoea nil. |
| PubMed: | Characterization of Tpn1 family in the Japanese morning glory: En/Spm-related transposable elements capturing host genes. |
| PubMed: | Brassinosteroid deficiency due to truncated steroid 5alpha-reductase causes dwarfism in the lk mutant of pea. |
| PubMed: | Multiple transcripts of a gene for a leucine-rich repeat receptor kinase from morning glory (Ipomoea nil) originate from different TATA boxes in a tissue-specific manner. |
| PubMed: | Gibberellin induces alpha-amylase gene in seed coat of Ipomoea nil immature seeds. |
| PubMed: | Insertion of an En/Spm-related transposable element into a floral homeotic gene DUPLICATED causes a double flower phenotype in the Japanese morning glory. |
| PubMed: | Spontaneous mutations of the flavonoid 3'-hydroxylase gene conferring reddish flowers in the three morning glory species. |
| PubMed: | Mechanism of dusky reddish-brown "kaki" color development of Japanese morning glory, Ipomoea nil cv. Danjuro. |
| PubMed: | The metabolic pathway of salicylic acid rather than of chlorogenic acid is involved in the stress-induced flowering of Pharbitis nil. |
| PubMed: | Is auxin the repressor signal of branch growth in apical control? |
| PubMed: | Genes encoding the vacuolar Na+/H+ exchanger and flower coloration. |
| PubMed: | Dynamics of mobile element activity in chalcone synthase loci in the common morning glory (Ipomoea purpurea). |
| PubMed: | Alternative transcript initiation and novel post-transcriptional processing of a leucine-rich repeat receptor-like protein kinase gene that responds to short-day photoperiodic floral induction in morning glory (Ipomoea nil). |
| PubMed: | [Preservation of strains of Ipomoea nil]. |
| PubMed: | Endogenous Levels and Transport of 1-Aminocyclopropane-1-Carboxylic Acid in Stamens of Ipomoea nil (Convolvulaceae). |
| PubMed: | Floral-specific polypeptides of the Japanese morning glory. |