[Study on ecological suitability of Gardenia jasminoides based on ArcGIS and Maxent model].

The application of ArcGIS and Maxent modelto analyze the ecological suitability of Gardenia jasminoides.Taking 85 batches of Gardenia as the basis of analysis, the selection of ecological factors for the growth of Gardenia. The results showed that the average precipitation in April, the average precipitation in November and the average precipitation in August were the most important factors affecting the growth of Gardenia. The relative concentration of Gardenia suitable growth region,north to the south of Shaanxi province, south of Henan, central Anhui, south to the north of Hainan province, west to central Sichuan province, east of Zhejiang coastal area, northeast of Taiwan.

Diverse patterns of stored water use among saplings in seasonally dry tropical forests.

Tree species in seasonally dry tropical forests likely vary in their drought-survival mechanisms. Drought-deciduousness, which reduces water loss, and low wood density, which may permit dependence on stored water, are considered key traits. For saplings of six species at two distinct sites, we studied these and two associated traits: the seasonal amount of water released per stem volume ("water released") and the hydraulic capacitance of the stem (C). Two deciduous species with low stem density, Cavanillesia platanifolia and Bursera simaruba, had high C and high dry-season stem water potential (Ψ(stem)), but differed in dry-season water released. C. platanifolia did not use stored water during the dry season whereas B. simaruba, in a drier forest, released stored water. In both, water released was highest while flushing leaves, suggesting that stored water supports leaf flushing. In contrast, two deciduous species with intermediate stem density, Annona hayesii and Genipa americana, had intermediate C, low dry-season Ψ(stem), and high seasonal change in water released. Meanwhile, two evergreen species with intermediate stem density, Cojoba rufescens and Astronium graveolens, had relatively low C, low dry-season Ψ(stem), and intermediate seasonal change in water released. Thus, at least three, distinct stored-water-use strategies were observed. Additionally, bark relative water content (RWC) decreased along with Ψ(stem) during the dry season while xylem RWC did not change, suggesting that bark-stored water buffers Ψ(stem) seasonally. Together these results suggest that seasonal use of stored water and change in Ψ(stem) are associated with functional groups that are characterized by combinations of deciduousness and stem density.

Temperature model for process impact non-uniformity in genipin recovery by high pressure processing.

A model for the process impact temperature non-uniformity during high pressure processing (HPP) of genipap fruit purees was found during genipin recovery. Purees were subjected to HPP (130-530 MPa) under quasi-isobaric non-isothermal conditions (15 min; 0, 4.6 and 9.3mg pectinases/g fruit). Genipin and protein concentration was determined, and pH was measured. Polygalacturonase activity was quantified indirectly by protein content (mg/g fruit). First order kinetics described temperature changes (0-4 min). Polygalacturonase was activated at 130 MPa, inactivated reversibly at 330 MPa and activated again at 530 MPa. Enzyme reaction rate constant (k) was placed in the 0-4 min model and temperature from 2 to 15 min was described. Protein content and pH characterization in terms of decimal reduction time improved highly the 2-15 min model. Since temperature changes were modeled, more insight of its behavior in an HPP reactor was obtained, avoiding uniformity assumptions, making easier the industrial scale HPP implementation.

Simultaneous determination of bioactive marker compounds from Gardeniae fructus by high performance liquid chromatography.

Gardeniae fructus is one of the medicinal herbs that have been used in Far Eastern countries, such as Korea, China, and Japan. Gardeniae fructus is the dried ripe fruit of Gardenia jasminoides Ellis (Rubiaceae) and has been used as a yellow dye. It is widely used as traditional herbal medicine for reducing fever, cholagogue, diuretic and antiphlogistic effects. We established an analytical method that was useful to evaluate the quality control, and standardize quantification monitoring of 68 samples of Gardeniae fructus collected from Korea and China. While numerous previous studies have focused on the simultaneous analysis of geniposide, which constitutes the higher proportion of Gardeniae fructus, and crocin, which determines its color, no simultaneous analysis of gardenoside and geniposide, the major components of Gardeniae Fructus, has been performed. However, previously reported methods are not considered accurate enough because only geniposide or gardenoside was chosen to be the marker component for the quality control of Gardeniae fructus. Thus, we developed the method using simultaneous determination of four components including geniposide, gardenoside, geniposic acid and chlorogenic acid. Against this backdrop, this study aims to propose a new calculation for gardenoside and geniposide concentrations by analyzing their concentrations in Gardeniae fructus.

[Comparative study on HPLC fingerprint of ordinary powder and ultrafine powder for Gardenia jasminoides f. longicarpa].

OBJECTIVE: To establish an HPLC fingerprint of Gardenia jasminoides f. longicarpa and compare the differences between its ordinary powder and ultrafine powder. METHODS: The analysis was carried out on a Kromasil C18 (250 mm x 4.6 mm, 5 microm) column with gradient elution of acetonitrile-0.4% phosphoric acid at the flow rate of 1.0 ml/min. The wavelength was 240 nm during 0 - 40 min and 440 nm during 40 - 80 min. RESULTS: HPLC fingerprint of Gardenia jasminoides f. longicarpa was established, 23 common peaks were identified,and the similarity of 10 samples was greater than 0.9. Ultrafine grinding did not change the types and number of chemical compositions, but it obviously increased the content of main chemical compositions. CONCLUSION: The HPLC fingerprint is accurate, reliable and repeatable, which can be used for quality control of Gardenia jasminoides f. longicarpa. Ultrafine grinding can stimulate the release of chemical components of Gardenia jasminoides f. longicarpa.

[Effects of different harvest times and processing methods on quality of Gardeniae Fructus].

OBJECTIVE: To study effects of different harvest times and processing methods on the quality of Gardeniae Fructus. METHOD: The content of asminoidin and the similarity of the fingerprint of Gardeniae Fructus were determined and applied for assessment of the quality. RESULT: Gardeniae Fructus harvested in October with yellow-green appearance was the better time point for harvest. Drying in the sun and boiling in the water is the better processing method for Gardeniae Fructus. CONCLUSION: Different harvest times and processing methods can affect the quality of Gardeniae Fructus.

[Determination of geniposide and croein-1 in different breed of fructus gardeniae].

OBJECTIVE: To determinate geniposide and croein-1 in Fructus Gardeniae from different breeds. METHODS: RP-HPLC method was adopted. The chromatographic separation was performed on an Eclipse XDB-C18 column (250 mm x 4.6 mm, 5 microm, Agilent). The mobile phase was a mixture of acetonitrile-0.1% phosphoric acid aqueous solution in gradient elution. The wavelength of 238 nm and 440 nm was selected to determinate geniposide and crocins simultaneously. RESULT: The contents of geniposide and croein-1 in different breeds of Fructus Gardeniae are different. CONCLUSION: This method is simple and repeatable, and could be used for the quality control of Fructus Gardeniae.

Crocin and geniposide profiles and radical scavenging activity of gardenia fruits (Gardenia jasminoides Ellis) from different cultivars and at the various stages of maturation.

The major components of gardenia fruits are geniposide and water soluble pigment crocins. In this study, we investigate crocins and geniposide profiles of gardenia fruits from different cultivars and at the various stages of maturation. DPPH scavenging activity of gardenia fruits from different cultivars and at the various stages of fruit maturation was also assayed. Quantitative determination of crocins in the gardenia at the various stages of maturation revealed a significant increase when ripening. However, geniposide content was negatively correlated with ripening stages. A significant difference was observed when comparing crocin content of different gardenia from various cultivars and geniposide content also showed marked variety. Current study indicated no relationship between crocin and geniposide content in gardenia fruits at the various stages of maturation and DPPH radical scavenging activity. Data showed that, although crocins feature markedly less DPPH scavenging activity than gardenia ethanol extract, total crocin content of gardenias collected in various cultivars correlate, to a certain degree, with radical scavenging effects of the Chinese traditional medicine (r=0.75).

Flower scents from the Pacific.

For a long time, exotic scents from the islands of the South Pacific have universally been appreciated. Most frequently, fragrant flowers (e.g., frangipani, jasmine sambac, tiaré, pua kenikeni) are used locally for ornamental purposes such as flower garlands (leis). Despite their powerful and delightful fragrance, very few of these flowers have been commercially employed in this part of the world for perfume manufacturing. Creative perfumers are nevertheless strongly interested to better understand these fragrances and to use them, either genuine or artificially reconstituted. Analytical results on the fragrance of these flowers are reported, together with some economical considerations.

Peroxidases, lignin and anatomy during in vitro and ex vitro rooting of gardenia (Gardenia jasminoides Ellis) microshoots.

In vitro and ex vitro rooting of gardenia (Gardenia jasminoides Ellis) microshoots with or without indolic-3-butyric acid (IBA) was studied in order to improve acclimatization of microplants after root formation and transplantation. Peroxidase (POD) activity and isoforms, lignin content and anatomical observations were evaluated in the course of the three interdependent phases (induction, initiation and expression) of microshoot rooting. Microshoots treated or not treated with IBA achieved high rooting percentages both in vitro and ex vitro. At the end of the 2-week acclimatization period, the percentage of surviving microplants ranged from 80% to 100%, for in vitro and ex vitro rooted microshoots, respectively. Microshoots rooted in vitro and ex vitro showed a relationship between rooting and POD activity but in a different time course. It appeared that root formation occurred after the microshoots had reached and passed a peak of maximum enzyme activity. In all treatments, electrophoretic analysis (native PAGE) of PODs revealed the appearance of one anionic and three cationic POD isoforms (C(1), C(3) and C(4)). An additional cationic POD isoform (C(2)) appeared only in the ex vitro rooting. The lignin content was similar in microshoots rooted both in vitro and ex vitro. The sequential anatomical changes during the rooting process were similar in both in vitro and ex vitro rooting treatments. In the case of in vitro rooting, pith cells had vacuoles entirely filled with a dark substance, while in the case of ex vitro rooting, pith cells contained many amyloplasts. The origin of the adventitious roots, in both rooting conditions, was located in the cambial ring. Roots with organized tissue systems emerged from the microshoot stem 10-14 days after the root induction treatments; on day 10 for rooting in vitro, while a 4-day delay was noted in microshoots rooted ex vitro.

[Content analysis on gardenoside in grown and ungrown fruits of Gardenia from different habitats].

This paper reported content analysis on gardenoside in grown fruits of Gardenia from different habitats and ungrown fruits of Gardenia jasminoides and G. jasminoides f. longicarpa. The results were as follows: (1) The content of gardenoside in G. jasminoides from indigenous region of Jiangxi was higher than other habitats; (2) The content of gardenoside in G. jasminoides f. longicarpa was the highest; (3) The content of gardenoside in fruits of growth period of G. jasminoides and G. jasminoides f. longicarpa had two peak stages.