Two closely linked tomato HKT coding genes are positional candidates for the major tomato QTL involved in Na+/K+ homeostasis

The location of major quantitative trait loci (QTL) contributing to stem and leaf [Na⁺] and [K⁺] was previously reported in chromosome 7 using two connected populations of recombinant inbred lines (RILs) of tomato. HKT1;1 and HKT1;2, two tomato Na⁺‐selective class I‐HKT transporters, were found to be closely linked, where the maximum logarithm of odds (LOD) score for these QTLs located. When a chromosome 7 linkage map based on 278 single‐nucleotide polymorphisms (SNPs) was used, the maximum LOD score position was only 35 kb from HKT1;1 and HKT1;2. Their expression patterns and phenotypic effects were further investigated in two near‐isogenic lines (NILs): 157‐14 (double homozygote for the cheesmaniae alleles) and 157‐17 (double homozygote for the lycopersicum alleles). The expression pattern for the HKT1;1 and HKT1;2 alleles was complex, possibly because of differences in their promoter sequences. High salinity had very little effect on root dry and fresh weight and consequently on the plant dry weight of NIL 157‐14 in comparison with 157‐17. A significant difference between NILs was also found for [K⁺] and the [Na⁺]/[K⁺] ratio in leaf and stem but not for [Na⁺] arising a disagreement with the corresponding RIL population. Their association with leaf [Na⁺] and salt tolerance in tomato is also discussed.     

Mutants impaired in vacuolar metal mobilization identify chloroplasts as a target for cadmium hypersensitivity in Arabidopsis thaliana

Cadmium (Cd) is highly toxic to plants causing growth reduction and chlorosis. It binds thiols and competes with essential transition metals. It affects major biochemical processes such as photosynthesis and the redox balance, but the connection between cadmium effects at the biochemical level and its deleterious effect on growth has seldom been established. In this study, two Cd hypersensitive mutants, cad1‐3 impaired in phytochelatin synthase (PCS1), and nramp3nramp4 impaired in release of vacuolar metal stores, have been compared. The analysis combines genetics with measurements of photosynthetic and antioxidant functions. Loss of AtNRAMP3 and AtNRAMP4 function or of PCS1 function leads to comparable Cd sensitivity. Root Cd hypersensitivities conferred by cad1‐3 and nramp3nramp4 are cumulative. The two mutants contrast in their tolerance to oxidative stress. In nramp3nramp4, the photosynthetic apparatus is severely affected by Cd, whereas it is much less affected in cad1‐3. In agreement with chloroplast being a prime target for Cd toxicity in nramp3nramp4, the Cd hypersensitivity of this mutant is alleviated in the dark. The Cd hypersensitivity of nramp3nramp4 mutant highlights the critical role of vacuolar metal stores to supply essential metals to plastids and maintain photosynthetic function under Cd and oxidative stresses.     

Silver Sorption to Myxococcus xanthus Biomass

This paper deals with silver sorption to Myxococcus xanthus biomass. The dry biomass of this microorganism is shown to be a good sorbent for the recovery of silver present at low solution concentrations. Between initial silver concentrations of 2 and 0.05 mM, the percentage of accumulation ranges from 8.12% to 75% of the total silver present in the solution. Transmission electron microscopy study of M. xanthus wet biomass after silver accumulation shows the sorption within the extracellular polysaccharide, on the cell wall, and in the cytoplasm. The presence of silver deposits in the cytoplasm indicates that at least two mechanisms are involved in silver sorption by this bacterium biomass. First, silver was bound to the cell surface and extracellular polysaccharide, and second, a silver intracellular deposition process took place. The higher amount of silver deposits in the extracellular polysaccharide, present abundantly in M. xanthus cells, explains the capacity of this bacterium to bind silver efficiently. The results obtained indicate that the removal of silver by M. xanthus from the diluted solutions could be used in recycling this valuable metal. One interesting observation of this investigation is the crystalline form, possibly as chlorargyrite, in which the silver deposits are found in the M. xanthus cells.     

P2Y2 receptor promotes intestinal microtubule stabilization and mucosal re‐epithelization in experimental colitis

P2Y₂ receptor expression is increased in intestinal epithelial cells (IECs) during inflammatory bowel diseases (IBDs). In this context, P2Y₂ stimulates PGE₂ release by IECs, suggesting a role in wound healing. For this study, we have used the non‐cancerous IEC‐6 cell line. IEC‐6 cell migration was determined using Boyden chambers and the single‐edged razor blade model of wounding. The receptor was activated using ATP, UTP, or 2‐thioUTP. Pharmacological inhibitors, a blocking peptide, a neutralizing antibody and interfering RNAs were used to characterize the signaling events. Focal adhesions and microtubule (MT) dynamics were determined by immunofluorescence using anti‐vinculin and anti‐acetylated‐α‐tubulin antibodies, respectively. In vivo, the dextran sodium sulfate mouse model of colitis was used to characterize the effects of P2Y₂ agonist 2‐thioUTP on remission. We showed that P2Y₂ increased cell migration and wound closure by recruiting Go protein with the cooperation of integrin α_v. Following P2Y₂ activation, we demonstrated that GSK3β activity was inhibited in response to Akt activation. This leads to MT stabilization and increased number of focal adhesions. In vivo, P2Y₂ activation stimulates remission, as illustrated by a reduction in the disease activity index values and histological scores as compared to control mice. These findings highlight a novel function for this receptor in IECs. They also illustrate that P2Y receptors could be targeted for the development of innovative therapies for the treatment of IBDs. J. Cell. Physiol. 228: 99–109, 2013. © 2012 Wiley Periodicals, Inc.     

Glucose transporter 2 expression is down regulated following P2X7 activation in enterocytes

With the diabetes epidemic affecting the world population, there is an increasing demand for means to regulate glycemia. Dietary glucose is first absorbed by the intestine before entering the blood stream. Thus, the regulation of glucose absorption by intestinal epithelial cells (IECs) could represent a way to regulate glycemia. Among the molecules involved in glycemia homeostasis, extracellular ATP, a paracrine signaling molecule, was reported to induce insulin secretion from pancreatic β cells by activating P2Y and P2X receptors. In rat's jejunum, P2X7 expression was previously immunolocalized to the apex of villi, where it has been suspected to play a role in apoptosis. However, using an antibody recognizing the receptor extracellular domain and thus most of the P2X7 isoforms, we showed that expression of this receptor is apparent in the top two‐thirds of villi. These data suggest a different role for this receptor in IECs. Using the non‐cancerous IEC‐6 cells and differentiated Caco‐2 cells, glucose transport was reduced by more than 30% following P2X7 stimulation. This effect on glucose transport was not due to P2X7‐induced cell apoptosis, but rather was the consequence of glucose transporter 2 (Glut2)'s internalization. The signaling pathway leading to P2X7‐dependent Glut2 internalization involved the calcium‐independent activation of phospholipase Cγ1 (PLCγ1), PKCδ, and PKD1. Although the complete mechanism regulating Glut2 internalization following P2X7 activation is not fully understood, modulation of P2X7 receptor activation could represent an interesting approach to regulate intestinal glucose absorption. J. Cell. Physiol. 228: 120–129, 2013. © 2012 Wiley Periodicals, Inc.     

The study of habitat use by censuses and molecular methods in birds: the case of two sympatric pigeons

Capsule Faecal DNA gives accurate results of habitat use.     

大兴安岭天然沼泽湿地生态系统碳储量

采用碳/氮分析仪测定法与标准木解析法,研究大兴安岭5种典型天然沼泽湿地(草丛沼泽、灌丛沼泽、毛赤杨沼泽、白桦沼泽和落叶松沼泽)的生态系统碳储量(植被和土壤)、净初级生产力、植被年净固碳量及其沿沼泽至森林方向过渡带水分环境梯度的分布格局,揭示其空间变异规律性,并定量评价寒温带5种典型天然沼泽湿地的碳储量与固碳能力及其长期碳汇作用。结果表明:①5种天然沼泽湿地的植被碳储量分布在(0.48±0.08)—(8.33±0.66)kgC/m2之间,沿过渡带环境梯度呈递增趋势;②土壤碳储量分布在(19.21±6.17)—(38.28±4.86)kgC/m2之间,沿过渡带环境梯度却呈递减趋势;③生态系统碳储量分布在(27.54±7.16)—(38.76±4.58)kgC/m2之间,沿过渡带环境梯度基本呈恒定分布规律性,且以湿地土壤碳储量占优势地位(69.8%—98.8%);④植被净初级生产力分布在(0.68±0.10)—(1.08±0.12)kg.m-.2a-1之间,毛赤杨沼泽最高,草丛沼泽、灌丛沼泽、白桦沼泽居中,落叶松沼泽最低,且总体上低于温带森林湿地而高于寒温带天然落叶松林;⑤植被年净固碳量分布在(0.32±0.09)—(0.51±0.06)kgC.m-.2a-1,毛赤杨沼泽最高(高于全球植被平均年净固碳量)、灌丛沼泽和白桦沼泽居中(达到或接近全球平均值)、草丛沼泽和落叶松沼泽最低(略低于全球平均值),故这5种沼泽湿地均属于碳汇功能相对较强的湿地植被类型。     

马哈利樱桃大孢子发生和雌配子体的发育

采用石蜡切片法对马哈利樱桃大孢子发生和雌配子体发育过程进行观察研究。结果表明:(1)马哈利樱桃雌配子体发育早期,在单室子房内可以看到2个倒生胚珠,但在后期其中一个退化,另一个发育为种子;其胚珠具双珠被,为厚珠心。(2)大孢子母细胞减数分裂形成直线型四分体,功能大孢子位于合点端;胚囊发育为蓼型,成熟胚囊为七细胞八核。(3)根据不同时间花的外部形态特征与内部解剖学对比的观察结果,在陕西关中地区,三月下旬是马哈利樱桃雌性生殖细胞分化和发育的重要时期,果园在此期间应加强肥水管理。