Biodegradation of natural and synthetic rubbers: A review

Since polymeric materials do not decompose easily, disposal of waste polymers is a serious environmental concern. Widespread studies on the biodegradation of rubbers have been carried out in order to overcome the environmental problems associated with rubber waste. This report provides an overview on the microbial degradation of natural and synthetic rubbers. Rubber degrading microbes, bacteria and fungi, are ubiquitous in the environment especially soil. The qualitative data like plate assay, scanning electron microscopy (SEM), attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR) and Sturm test indicated that both natural and synthetic rubbers can be degraded by microorganisms. It has confirmed that the enzymes latex clearing protein (Lcp) and rubber oxygenase A (RoxA) are responsible for the degradation of natural and synthetic rubbers. Lcp was obtained from Gram-positive bacterium Streptomyces sp. strain K30 and RoxA from Gram-negative bacterium Xanthomonas sp. strain 35Y. Analysis of degradation products of natural and synthetic rubbers indicated the oxidative cleavage of double bonds in polymer backbone. Aldehydes, ketones and other carbonyl groups were detected as degradation products from cultures of various rubber degrading strains. This review emphasizes the importance of biodegradation in environmental biotechnology for waste rubber disposal.     

Monitoring airborne genotoxicants in the rubber industry using genotoxicity tests and chemical analyses

This research was designed to examine the presence of mutagenic/carcinogenic compounds in airborne pollutants in the rubber industry using an integrated chemical/biological approach. Inhalable airborne particulate matter (PM-10: <10 μm) was collected in four rubber factories using a high-volume sampler equipped with a cascade impactor for particle fractionation. The organic extracts of two different fractions (0.5–10 μm and <0.5 μm) were examined for mutagenicity with the Ames test and for in vitro DNA-damaging activity in human leukocytes by single-cell microgel electrophoresis (Comet assay). The extracts were also studied by gas chromatography/mass spectrometry (GC/MS) for polycyclic aromatic hydrocarbon (PAH) content. Nitrosamines in ambient air were sampled on cartridges and analysed by GC with a thermal energy analyser (TEA) detector. Airborne volatile genotoxins were monitored in situ using a clastogenicity plant test (Tradescantia/micronuclei test). The results showed that airborne particulates were mainly very fine (<0.5 μm) and that trace amounts of genotoxic nitrosamines (N-nitrosodimethylamine: 0.10–0.98 μg/m³; N-nitrosomorpholine: 0.77–2.40 μg/m³) and PAH (total PAH: 0.34–11.35 μg/m³) were present in air samples. Some extracts, particularly those obtained from the finest fractions, were mutagenic with the Ames test and genotoxic with the Comet assay. In situ monitoring of volatile mutagens using the Tradescantia/micronuclei test gave positive results in two working environments. The results showed the applicability of this integrated chemical–biological approach for detecting volatile and non-volatile genotoxins and for monitoring genotoxic hazards in the rubber industry.     

橡胶树白粉菌分支酸变位酶基因克隆及蛋白表达纯化

由橡胶树白粉菌引起的橡胶树白粉病是橡胶树的重要的叶部病害之一,严重影响橡胶的产量。然而目前对橡胶树白粉菌的致病机理研究匮乏。分支酸变位酶是莽草酸途径的关键酶,能够将分支酸转化为预苯酸,为植物提供氨基酸及大量代谢产物,在植物抗病中起到非常重要的作用。而植物病原物在致病过程当中能够分泌分支酸变位酶影响植物莽草酸途径,从而抑制植物的防卫反应。因此研究橡胶树白粉菌分支酸变位酶在其致病过程中的功能具有一定的意义。试验利用同源比对分析在橡胶树白粉菌基因组中获得一个分支酸变位酶同源蛋白,并用PCR克隆获得橡胶树白粉菌分支酸变位酶基因,命名为OHCmu。后续构建GST-OHCmu融合原核表达载体,筛选最优诱导条件,并利用GST亲和层析柱对蛋白进行纯化。结果表明橡胶树白粉菌OHCmu基因大小843 bp,具有1个内含子,编码263个氨基酸;具有d5csma_结构域,属于Chorismate mutaseⅡ蛋白家族;GST-OHCmu融合蛋白外源诱导表达在供试条件下(IPTG:0.8 mmol/L, 16℃)可以有较好的表达,获得融合蛋白大小约为56 kD。经过GST亲和层析柱纯化、切割GST标签后,顺利获得浓度较高、较纯的橡胶树白粉菌OHCmu蛋白。研究结果为后续OHCmu蛋白的特性及致病机理研究提供参考。     

气候变化背景下橡胶树物候研究进展

橡胶树(Heveabrasiliensis)是广布于热带地区的经济林木，是战略物资天然橡胶的主要来源，其物候学的研究对胶园生产管理和评估热带地区植被对全球气候变化的响应方面具有重要意义。早期的物候研究主要服务于苗木繁育、割胶规划和抗逆栽培等生产应用；利用遥感监测植被物候日趋成熟，已广泛应用于橡胶树并成为主流的物候监测方法；橡胶树物候具有明显的时空异质性，对气候变化的响应较为复杂，其中温度和降水是关键影响因子，同时内因(品系、基因和树龄等)和外因(种植密度、地理位置和农业措施等)也共同影响了其物候。为更好服务天然橡胶产业的可持续发展和热区气候变化科学研究，未来的橡胶树物候研究应重点关注多源遥感数据的协同重建、物候指标提取算法的普适化和遥感预测模型的精准化。该文系统梳理了橡胶树物候的监测方法、服务价值、时空格局，提出了存在问题及未来研究方向。