涠洲岛海域球形棕囊藻藻华过程中营养盐及浮游植物群落组成分析

球形棕囊藻(Phaeocystis globosa)是近年来北部湾常见的有害藻华原因种,涠洲岛海域作为广西沿海藻华的高发区之一,目前仍缺乏关于该海域球形棕囊藻藻华过程的相关研究。为探究涠洲岛海域球形棕囊藻藻华过程中营养盐的状况及藻华的发生对浮游植物群落组成的影响,对2017年3月下旬涠洲岛周边发生的球形棕囊藻藻华区域进行取样调查。结果表明,藻华期间水体中溶解有机磷含量与细胞及囊体密度呈显著正相关。本次藻华主要受水体中溶解态无机氮含量影响,多个调查站点的无机氮/无机磷(DIN/DIP)<10,且硅酸盐/无机氮(SiO₃^2–/DIN)>1,表明这些站点存在氮限制现象,而氮限制可能是本次藻华消亡的主要因素。调查区域共鉴定出浮游植物4门58种,球形棕囊藻细胞密度最高可达1.04×10⁸ cells/L,占浮游植物总细胞密度的98.28%。球形棕囊藻细胞密度与物种多样性指数存在显著的负相关关系。在营养缺乏条件下,有利于球形棕囊藻成囊的链状硅藻种类具有相对较大的细胞密度。     

A Pin gene families encoding components of auxin efflux carriers in Brassica juncea

Based on the sequence information of Arabidopsis PIN1, two cDNAs encoding PIN homologues from Brassica juncea, Bjpin2 and Bjpin3, were isolated through cDNA library screening. Bjpin2 and Bjpin3 encoded proteins containing 640 and 635 amino acid residues, respectively, which shared 97.5% identities with each other and were highly homologous to Arabidopsis PIN1, PIN2 and other putative PIN proteins. BJPIN2 and BjPIN3 had similar structures as AtPIN proteins. Northern blot analysis indicated that Bjpin2 was expressed in stem, leaf and floral tissues, while Bjpin3 was expressed predominantly in stem and hypocotyls. Two promoter fragments of pin genes, Bjpin-X and Bjpin-Z, were isolated by 'genome walking' technique using primers at 5'-end of pin cDNA. Promoter-gus fusion studies revealed the GUS activities driven by Bjpin-X were at internal side of xylem and petal; while those driven by Bjpin-Z were detected at leaf vein, epidermal cell and cortex of stem, vascular tissues and anther. Results of the pin gene