Avicennia marina is a salt-tolerance plant with high antioxidant and antibacterial potential. In the present work, a gene encoding MnSOD from Avicennia marina (AmSOD2) was cloned in the expression vectors pET28a. The resulting constructs were transformed into Escherichia coli strains Rosetta (DE3)...
Studying salt tolerance ofAm_SOD by fluorescence spectrometry. (a) Fluorescence spectra showing tyrosine autofluorescence intensity (in y-axis) of 0.05 mg/ml ofAm_SOD incubated with various NaCl concentrations and scanned at emission wavelength from 290 to 400 nm (in x-axis). A plot in the in...
The performance of 6-month-old Avicennia marina plants was evaluated in quick check system (QCS) using five water salinity levels (0, 50, 75, 100 and 150% seawater) and by studying limit of salt tolerance, growth and some physiological parameters. The number of leaves, length and area, ...
Various genes responsible for providing oxidative and salt tolerance and ability to grow at elevated salt concentration have been identified. The present study is related to the sequence and structural analysis of peroxidase, a stress-related protein of A. marina. The structural features shows that ...
Disclosed are a monooxygenase CMO derived fromAvicennia marinaand a coding gene thereof, and a use of the coding gene in the cultivation of transgenic plants having improved salt tolerance and drought tolerance. 一种来源于白骨壤的单加氧酶CMO及其编码基因,以及该编码基因在培育耐盐、耐旱性提高的转基...
A. marina BADHs efficiently catalyzed the oxidation of betainealdehyde, but not the oxidation of ω-aminoaldehydes and were more stable at high temperature than the spinach BADH. 展开 关键词: Avicennia marina betaine betaine aldehyde dehydrogenase mangrove salt tolerance DOI: 10.1023/A:...
Mangrove species have high tolerance to heavy metal pollution. Chitinases have been widely reported as defense proteins in response to heavy metal stress i
Salt stress is a major challenge for growth and development of plants. The mangrove tree Avicennia officinalis has evolved salt tolerance mechanisms such as salt secretion through specialized glands on its leaves. Although a number of structural studies on salt glands have been done, the molecular ...
Salinity affects growth and development of plants, but mangroves exhibit exceptional salt tolerance. With direct exposure to salinity, mangrove roots possess specific adaptations to tolerate salt stress. Therefore, studying the early effects of salt on m
SALT TOLERANCE IN SEEDLINGS OF THE MANGROVE KANDELIA-CANDEL (L) DRUCE, RHIZOPHORACEAE OsmoticX-ray-microanalysisAtriplex-spongiosaCell compartmentsAvicennia-marinaWe investigated the growth and ion content of seedlings of the mangrove Kandelia ... Hwang YH,Chen SC - 《Botanical Bulletin of Academia Si...