Search results for "Teucrium"

Antifeedant activity of neo-clerodane diterpenoids from Teucrium arduini

2002

Sobre Teucrium × bicoloreum (Lamiaceae) y sus afinidades taxonómicas con algunos congéneres presentes en el territorio valenciano

2009

Se reivindica el nombre Teucrium × bicoloreum Pau ex C. Vicioso para el nototaxon producto del cruce natural entre T. expassum Pau y T. ronnigeri Sennen. Se comentan las relaciones morfológicas con ambos parentales y las afinidades taxonónicas con aquellos congéneres más estrechamente emparentado. Esta nueva interpretación permite separar a las plantas valencianas respecto del complejo de formas de distribución bética, tradicionalmente adscritas a T. bicoloreum auct. pl. non Pau ex C. Vicioso. Se aportan nuevos datos sobre su presencia en la Comunidad Valenciana y algunos aspectos relacionados con su ecología. Además, se describen dos nuevas notoformas: T. × bicoloreum nm. expassoides y nm.…

Teucrium ronnigeri Sennen (Lamiaceae) y sus variaciones

2009

Se aportan datos sobre Teucrium ronnigeri Sennen, nombre prioritario para el endemismo iberolevantino que ha venido denominándose T. aureum subsp. latifolium o T. homotrichum. Se discute su variabilidad morfológica a lo largo de su área de distribución, sobre todo en lo que afecta a la coloración general de la planta, anchura de las hojas superiores, color de la corola y tamaño de los cálices y glomérulos florales. Pese a la enorme variación observada, se acepta que las poblaciones del extremo meridional de Alicante y áreas limítrofes con Murcia, constituyen una entidad particular, para la que se propone la nueva combinación T. ronnigeri subsp. lagunae, la cual se diferencia de la típica, T…

Chromosome numbers of severalLamiaceae from Spain

1998

Chromosome numbers of twenty taxa, almost all of them Iberian endemics, of the generaTeucrium, Sideritis, Thymus andSalvia are reported. New chromosome numbers are given for the following taxa:Teucrium homotrichum (2n=78),T. hifacense (2n=26),T. rivasii (2n=26),T. rivas-martinezii (2n=26),Sideritis edetana (2n=30),S. murgetana subsp.littoralis (2n=28), and the hybridS. xviciosoi (2n=27). The first count on Iberian material forSalvia pratensis (2n=18) is reported. Chromosome numbers have been confirmed for the rest of the taxa studied on material from SE Spain. Karyotype analyses and taxonomic remarks are included.

Antifeedant activity of neo-clerodane diterpenoids from Teucrium fruticans and derivatives of fruticolone

1999

The antifeedant activity of three neo-clerodane diterpenoids, fruticolone, isofruticolone and fruticolide from Teucrium fruticans was assessed using larvae of Spodoptera littoralis. Isofruticolone was one of the most potent of the Teucrium derived neo-clerodanes. Chemical modification of functional groups on fruticolone showed that its activity could be enhanced.

The C-12 and C-20 configurations of some neo-clerodane diterpenoids isolated from Teucrium species

1986

Abstract A convenient and conclusive method for determining the C-12 stereochemistry of neo-clerodan-20,12-olide derivatives, even when only one epimer is available, is by 1H NMR NOE measurements. The C-12 configuration of 26 neo-clerodane diterpenoids isolated from Teucrium species has been re-examined by using this type of experiment. The results indicated that all the previous assignments were correct, except for teupyreinin, where the previously assigned C-12(S) configuration must be amended to C-12(R). This was confirmed by chemical transformations and additional 1H and 13C NMR studies. Furthermore, the NOE experiments allowed the assignment of a C-20(S) configuration for teuflavin, th…

Rearranged abietane diterpenoids from the root of two Teucrium species

1992

Abstract From the root of Teucrium fruticans , two new rearranged abietane diterpenoids, teuvincenones F and G, have been isolated together with the known diterpene teuvincenone E. The acetone extract of the root of T. polium subsp. expansum yielded three previously known compounds (ferruginol and teuvincenones A and B) and two new 17(15 → 16)- abeo -abietane derivatives (teuvincenones H and I). The structures of the new diterpenoids [12,16-epoxy-11,14-dihydroxy-17(15 → 16), 18(4 → 3)- diabeo -abieta-3,5,8,11,13,15-hexaene-2,7-dione (teuvincenone F), (16 S )-12,16-epoxy-11,14-dihydroxy-17(15 → 16)- abeo -abieta-8,11,13-triene-3,7-dione (teuvincenone G), 12,16-epoxy-6,11,14-trihydroxy-17(15 …

Flavonoids from Teucrium fruticans L.

2014

From aerial parts of <em>Teucrium fncticans</em> L. three flavonoids were isolated and identified as 5-hydroxy-6, 7, 3', 4'-tetramethoxyflavone, 5, 4'-dihydroxy-6, 7, 3'-trimethoxyflavone (cirsilineol) and 5, 4'-dihydroxy-6, 7-dimethoxyflavone (cirsimaritin). The former compound was found to be a predominant flavone aglycone constituent of the plant material. This is the first report on the isolation of flavonoids from the plant.

Cutting Type and IBA Treatment Duration Affect <i>Teucrium fruticans</i> Adventitious Root Quality

2014

Root development of stem cuttings of Silver Germander (Teucrium fruticans) was investigated in relation to cutting type and indole-3-butyric acid (IBA) treatment. Terminal cuttings of a clone grown in Sicily were trimmed to three types: terminal cuttings with apex (TWA), terminal cuttings without apex (TWOA) or sub-terminal cuttings (ST). To verify the cutting response to exogenous auxin, cuttings were dipped to a 2.0 cm depth in a 0.5% indole-3-butyric acid solution for 0, 5 or 7 minutes. Overall percent survival was 97 to 98%. Rooting percent, root number and root length were affected by cutting type and indole-3-butyric acid treatment. In general, TWA cuttings demonstrated a higher capac…

Neo-clerodane diterpenoids from Teucrium kotschyanum

1989

Abstract From the aerial parts of Teucrium kotschyanum three new neo-clerodane diterpenoids have been isolated. Their structures, (12R)-15,16-epoxy-19-nor-10α-neo-cleroda-4,13(16),14-triene-18,6β; 20,12-diolide (12-epiteucvidin), (12R)-15,16-epoxy-19-nor-neo-cleroda-4,13(16),14-triene-18,6β; 20,12-diolide (12-epiteufiin) and (12S,18R)-15,16-epoxy-6β-hydroxy-neo-cleroda-13(16),14-dien-20,12-olide-l8,19-hemiacetal (teukotschyn), have been established by chemical and spectroscopic means. In addition, ursolic acid, the flavones cirsimaritin and cirsiliol, and six previously known neo-clerodane diterpenoids (teucvidin, teuflin, teuscorodin, teucrin H2, teuscorodonin and montanin D) were also fou…