No abstract available.
Metabolism* ; Water*

No abstract available.
Child* ; Humans ; Metabolism* ; Water*

OBJECTIVETo isolate, incubate, and identify 4-chlorophenol-degrading complex bacteria, determine the tolerance of these bacteria to phenolic derivatives and study their synergetic metabolism as well as the aboriginal micrpbes and co-metabolic degradation of mixed chlorophenols in river water.

METHODSMicrobial community of complex bacteria was identified by plate culture observation techniques and Gram stain method. Bacterial growth inhibition test was used to determine the tolerance of complex bacteria to toxicants. Biodegradability of phenolic derivatives was determined by adding 4-chlorophenol-degrading bacteria in river water.

RESULTSThe complex bacteria were identified as Mycopiana, Alcaligenes, Pseudomonas, and Flavobacterium. The domesticated complex bacteria were more tolerant to phenolic derivatives than the aboriginal bacteria from Qinhuai River. The biodegradability of chlorophenols, dihydroxybenzenes and nitrophenols under various aquatic conditions was determined and compared. The complex bacteria exhibited a higher metabolic efficiency on chemicals than the aboriginal microbes, and the final removal rate of phenolic derivatives was increased at least by 55% when the complex bacteria were added into river water. The metabolic relationship between dominant mixed bacteria and river bacteria was studied.

CONCLUSIONThe complex bacteria domesticated by 4-chlorophenol can grow and be metabolized to take other chlorophenols, dihydroxybenzenes and nitrophenols as the sole carbon and energy source. There is a synergetic metabolism of most compounds between the aboriginal microbes in river water and the domesticated complex bacteria. 4-chlorophenol-degrading bacteria can co-metabolize various chlorophenols in river water.

Bacteria ; metabolism ; Biodegradation, Environmental ; Phenols ; metabolism ; Rivers ; microbiology ; Water ; chemistry ; Water Pollutants, Chemical ; chemistry ; metabolism ; Water Purification

No abstract available.
Animal ; Aquaporins/metabolism* ; Exocrine Glands/metabolism* ; Water/metabolism*

OBJECTIVETo evaluate a calculating method of wound water loss (WWL) in hospitalized burn patients.

METHODSEighty-five adult burn patients with total burn area over 50% were enrolled in the study. The WWL formula after shock stage (after 3rd postburn day) was given as: WWL (ml/%/kg/24 h) = [input (ml/24 h)-urine output (ml/24 h)-500 ml] / actual burn wound area(%) / body weight (kg). The result was compared with that determined by other formulas such as Davies, S.M.S.P and Lamke and palm rule.

RESULTSThe calculated daily WWL in burn patients after shock stage was found out to be 0.9 +/- 0.1 ml/%/kg/24 h by this method. This figure is comparable with that calculated by several different methods. Palm rule could be simply applied in the patients with body weight around 60 kg.

CONCLUSIONThis method and palm rule were proved to be simple and practical for the calculation of WWL in burn patients, which could be applied in clinical work.

Adolescent ; Adult ; Algorithms ; Body Water ; metabolism ; Burns ; metabolism ; physiopathology ; Female ; Humans ; Male ; Middle Aged ; Water Loss, Insensible ; Water-Electrolyte Imbalance

Iridoid glycosides were the main active ingredient of Rehmannia glutinosa, of which catalpol has the highest content. This work will provide theoretical basis for metabolic study and cultivation of iridoids on the basis of the dynamic accumulation of catalpol and total iridoids in the growth of R. glutinosa. The samples of rehmannia 85-5 were gathered in the same filed from July to October. The contents of catalpol and total iridoid glycosides were measured by HPLC and specteophotometric, respectively. The results showed that youngest leaves had the higher content of catalpol and total iridoid glyosides than that of the other two leaf ages in the same growth stage from July to September, while their content of catalpol and total iridoid glycosides were all decreased as the growth of leaves of R. glutinosa. The content of catalpol didn't differ significantly from July to September, whereas it has significantly increased in October in the three leaf stage. In the same stage, the wider the root diameter is, the higher content of the effective components are. In August and September, the total iridoid glycosides have the fastest accumulation. The content of catalpol was increased as the accumulation of total iridoid glycosides.
Iridoid Glucosides ; metabolism ; Iridoids ; metabolism ; Plant Roots ; metabolism ; Rehmannia ; growth & development ; metabolism ; Seasons ; Water ; metabolism

OBJECTIVEUnder various drought conditions and nitrogen application, the content of vindoline, catharanthine, vincristine and vinblastine in the leaf of Catharanthus roseus were illustrated to improve the content of alkaloid theoretically.

METHODSix groups were set in the experiment, which included: CK (natural control), CN (natural control + nitrogen), LK (low drought), LN (low drought + nitrogen), HK (high drought), HN (high drought + nitrogen) to discuss the change characteristics of total nitrogen, the activity of alkaline POD and TDC, the content of four alkaloids under the different conditions were measured.

RESULTUnder LK condition, the activity of POD, TDC were enhanced. In the early stage of stress (0-21 d), vindoline, catharanthine, vincristine and vinblastine accumulated, and reduced in the later stage (28-35 d). For all groups, adding exogenous nitrogen could improve the total content of nitrogen, vindoline and vinblastine, meanwhile the activity of POD and TDC were enhanced as well. The LN, HN treatments were beneficial to accumulating catharanthine and vinblastine.

CONCLUSIONDrought stress or additional nitrogen have an influence on both of the activities of POD and TDC, and the four alkaloids were affected as well. Thereinto, the LN condition was the most effective treatment for accumulating the four alkaloids (vindoline, catharanthine, vincristine and vinblastine), which were regulated by improve nitrogen content and enzymatic activity.

Catharanthus ; metabolism ; Nitrogen ; metabolism ; Peroxidase ; metabolism ; Stress, Physiological ; Vinblastine ; analogs & derivatives ; metabolism ; Vinca Alkaloids ; metabolism ; Vincristine ; metabolism ; Water ; metabolism

Photobiomodulation utilizes monochromatic (or quasimonochromatic) light in the electromagnetic region of 600~1000 nm for the treatment of soft tissues in a nondestructive and nonthermal mode. It is conceivable that photobiomodulation is based upon the ability of the light to alter cell metabolism as it is absorbed by general hemoproteins and cytochrome c oxidase (COX) in particular. Recently it has been suggested radiation of visible and infrared (IR) activates retrograde signaling pathway from mitochondria to nucleus. In this review, the role of COX in the photobiomodulation will be discussed. Further a possible role of water as a photoreceptor will be suggested.
Electron Transport Complex IV ; Magnets ; Metabolism ; Mitochondria ; Phototherapy* ; Water

OBJECTIVETo study the effect of water stress on physiological and the growth characters of Prunella vulgaris at the vegetative stage.

METHODThe plants were treated timely and quantitatively by weighting method, and the relevant index were measured under different water stress conditions.

RESULTWith the long time of water stress, the plants of SY2 and SY3 showed the quickest growth rate and the best of growth vigor. The protective enzyme and osmoregulation substance presented the trend of increase firstly and then decrease. Under the same time of water stress, with the increase of extent in treatment, the protective enzyme and osmoregulation substance presented the trend of increase firstly and then decrease, and SY2 and SY3 were the lowest.

CONCLUSIONThe protective enzyme and osmoregulation substance of P. vulgaris have a whole effect. The suitable water range of growth in P. vulgaris is 65%-80%.

Prunella ; growth & development ; physiology ; Stress, Physiological ; Water ; metabolism

Microalgae is a single-cell organism with the characteristics of high light energy utilization rate, fast growth rate, high-value bioactive components and high energy material content. Therefore, microalgae has broad application prospects in food, feed, bioenergy, carbon sequestration, wastewater treatment and other fields. In this article, the microalgae biotechnology development in recent years were fully consulted, through analysis from the literature and patent. The progress of microalgal biotechnology at home and abroad is compared and discussed. Furthermore, the project layout, important achievements and development bottlenecks of microalgae biotechnology in our country were also summarized. At last, future development directions of microalgae biotechnology were discussed.
Bibliometrics ; Biofuels ; Biomass ; Biotechnology ; trends ; Microalgae ; metabolism ; Waste Water