Non-invasive estimation of root zone soil moisture from coarse root reflections in ground-penetrating radar images

Plant and Soil - Root zone soil moisture is an important component in water cycling through the soil-plant-atmosphere continuum. However, its measurement in the field remains a challenge,...     

掺混氮肥配施抑制剂对土壤氮库的调控作用

采用冬小麦盆栽试验,探讨掺混氮肥(缓释肥N∶普通尿素N=1∶1)配施氮肥抑制剂NAM对冬小麦土壤铵态氮、硝态氮、微生物生物量氮和固定态铵含量及小麦产量、氮肥利用率的影响,分析不同处理土壤矿质氮库、微生物生物量氮库和固定态铵库的动态变化特征.试验共设6个处理,不施氮肥(CK)、普通尿素(U)、掺混氮肥(MU)、MU+2.5‰NAM(MUN₁)、MU+5‰NAM(MUN₂)和MU+7.5‰NAM(MUN₃).结果表明:与MU处理相比,MUN₂和MUN₃处理推迟了NH₄⁺-N峰值出现的时间;小麦整个生长季,添加NAM处理的土壤矿质氮平均含量比MU处理下降了5.3%～11.7%;分蘖期至抽穗期,MU处理的微生物生物量氮矿化量和矿化率分别为38.96 mg·kg^-1和91.5%,均高于U处理,而MUN₁、MUN₂和MUN₃处理分别为58.73 mg·kg^-1和83.3%、94.20 mg·kg^-1和94.6%、104.46 mg·kg^-1和96.3%,添加NAM处理固定态铵的释放量比MU处理提高了2.83~9.19 mg·kg^-1.通径分析结果显示,与MU处理相比,添加NAM减弱了土壤NH₄⁺-N库对NO₃^--N库的直接影响,增强了固定态铵库通过影响NH₄⁺-N库对NO₃^--N库的间接作用.同时,MUN₁、MUN₂和MUN₃处理的小麦籽粒产量较MU处理分别提高了31.6%、21.5%和22.9%,氮肥利用率分别提高了8.1%、13.5%和3.1%.综上,配施NAM通过对氮素释放及在土壤中转化的双重调控,延迟土壤NH₄⁺-N峰值出现的时间及后续向NO₃^--N的转化,提高微生物生物量氮和固定态铵的供氮作用,从而提高了作物产量和氮肥利用率.     

High-Efficiency Rescue of Equine Infectious Anemia Virus from a CMV-Driven Infectious Clone

<正>Dear Editor,Equine infectious anemia virus (EIAV) belongs to the macrophage-tropic lentiviruses family and infects mainly equines, including horses, donkeys and mules. EIAV shares many similar characteristics in its viral biology and hostvirus immune regulation with other lentiviruses, such as human immunodeficiency virus type 1 (HIV-1) and simian immunodeficiency virus (SIV), and has been accepted as a     

Degradation of toluene by ortho cleavage enzymes in Burkholderia fungorum FLU100

Burkholderia fungorum FLU100 simultaneously oxidized any mixture of toluene, benzene and mono‐halogen benzenes to (3‐substituted) catechols with a selectivity of nearly 100%. Further metabolism occurred via enzymes of ortho cleavage pathways with complete mineralization. During the transformation of 3‐methylcatechol, 4‐carboxymethyl‐2‐methylbut‐2‐en‐4‐olide (2‐methyl‐2‐enelactone, 2‐ML) accumulated transiently, being further mineralized only after a lag phase of 2 h in case of cells pre‐grown on benzene or mono‐halogen benzenes. No lag phase, however, occurred after growth on toluene. Cultures inhibited by chloramphenicol after growth on benzene or mono‐halogen benzenes were unable to metabolize 2‐ML supplied externally, even after prolonged incubation. A control culture grown with toluene did not show any lag phase and used 2‐ML as a substrate. This means that 2‐ML is an intermediate of toluene degradation and converted by specific enzymes. The conversion of 4‐methylcatechol as a very minor by‐product of toluene degradation in strain FLU100 resulted in the accumulation of 4‐carboxymethyl‐4‐methylbut‐2‐en‐4‐olide (4‐methyl‐2‐enelactone, 4‐ML) as a dead‐end product, excluding its nature as a possible intermediate. Thus, 3‐methylcyclohexa‐3,5‐diene‐1,2‐diol, 3‐methylcatechol, 2‐methyl muconate and 2‐ML were identified as central intermediates of productive ortho cleavage pathways for toluene metabolism in B. fungorum FLU100.     

Apple Fruit Diameter and Length Estimation by Using the Thermal and Sunshine Hours Approach and Its Application to the Digital Orchard Management Information System

In apple cultivation, simulation models may be used to monitor fruit size during the growth and development process to predict production levels and to optimize fruit quality. Here, Fuji apples cultivated in spindle-type systems were used as the model crop. Apple size was measured during the growing period at an interval of about 20 days after full bloom, with three weather stations being used to collect orchard temperature and solar radiation data at different sites. Furthermore, a 2-year dataset (2011 and 2012) of apple fruit size measurements were integrated according to the weather station deployment sites, in addition to the top two most important environment factors, thermal and sunshine hours, into the model. The apple fruit diameter and length were simulated using physiological development time (PDT), an indicator that combines important environment factors, such as temperature and photoperiod, as the driving variable. Compared to the model of calendar-based development time (CDT), an indicator counting the days that elapse after full bloom, we confirmed that the PDT model improved the estimation accuracy to within 0.2 cm for fruit diameter and 0.1 cm for fruit length in independent years using a similar data collection method in 2013. The PDT model was implemented to realize a web-based management information system for a digital orchard, and the digital system had been applied in Shandong Province, China since 2013. This system may be used to compute the dynamic curve of apple fruit size based on data obtained from a nearby weather station. This system may provide an important decision support for farmers using the website and short message service to optimize crop production and, hence, economic benefit.     

DNA damage-induced activation of CUL4B targets HUWE1 for proteasomal degradation

The E3 ubiquitin ligase HUWE1/Mule/ARF-BP1 plays an important role in integrating/coordinating diverse cellular processes such as DNA damage repair and apoptosis. A previous study has shown that HUWE1 is required for the early step of DNA damage-induced apoptosis, by targeting MCL-1 for proteasomal degradation. However, HUWE1 is subsequently inactivated, promoting cell survival and the subsequent DNA damage repair process. The mechanism underlying its regulation during this process remains largely undefined. Here, we show that the Cullin4B-RING E3 ligase (CRL4B) is required for proteasomal degradation of HUWE1 in response to DNA damage. CUL4B is activated in a NEDD8-dependent manner, and ubiquitinates HUWE1 in vitro and in vivo. The depletion of CUL4B stabilizes HUWE1, which in turn accelerates the degradation of MCL-1, leading to increased induction of apoptosis. Accordingly, cells deficient in CUL4B showed increased sensitivity to DNA damage reagents. More importantly, upon CUL4B depletion, these phenotypes can be rescued through simultaneous depletion of HUWE1, consistent with the role of CUL4B in regulating HUWE1. Collectively, these results identify CRL4B as an essential E3 ligase in targeting the proteasomal degradation of HUWE1 in response to DNA damage, and provide a potential strategy for cancer therapy by targeting HUWE1 and the CUL4B E3 ligase.     

Conversion of 4-androstene-3,17-dione to testosterone by Pisum sativum

4-Androstene-3,17-dione-[4-¹⁴C] was applied to the leaves of growing pea plants, Pisum sativum. Within a week, 28% of the administered steroid was specifically reduced to testosterone. Part of the testosterone was present in esterified form, and 5α-androstane-3β,17β-diol was also identified as a metabolite, but neither epitestosterone nor estrogens were detected.     

Beneficial effects of combined terlipressin and tetramethylpyrazine administration on portal hypertensive rats.

The purpose of this study was to investigate the therapeutic effects of terlipressin (TP) alone or in combination with tetramethylpyrazine (TMP) on anesthetized portal hypertensive rats. Portal hypertension was induced by either partial portal vein ligation (PVL, without cirrhosis) or bile duct ligation (BDL, with cirrhosis) in Sprague-Dawley rats. Each PVL or BDL rat received only one of the two regimens: vehicle for 3 min followed by TP (0.017 mg x kg(-1) x min(-1) for 3 min) or TMP (10 mg x kg(-1) x min(-1) for 3 min) followed by TP. In PVL rats, infusion of vehicle followed by TP induced significant reduction of portal venous pressure (PVP, -15.0+/-1.0%) and prominent elevation of mean arterial pressure (MAP, 57.3+/-8.1%) as well as total peripheral resistance (TPR, 113+/-11%) from baseline, and there was a cardiodepressant response (cardiac index, CI, -26.3+/-1.1%). Infusion of TMP followed by TP induced significant reduction of PVP (-20.3+/-0.4%) and CI (-9.9+/-1.2%) and significant elevation of MAP (31.3+/-2.5%) and TPR (46.0+/-4.1%) from baseline. In BDL rats, infusion of vehicle followed by TP also induced significant reduction of PVP (-13.8+/-1.7%) but an increase in MAP (57.1+/-2.2%) and TPR (101+/-6%) from baseline, and there also was a cardiodepressant response (CI, -21.4+/-2.3%). Infusion of TMP followed by TP induced significant reduction of PVP (-18.9+/-1.4%) and CI (-11.9+/-2.1%), but an increase in MAP (36.2+/-2.5%) and TPR (55.0+/-5.2%). Compared with vehicle followed by TP, TMP not only significantly enhanced portal hypotensive (PVP reduction) effects of TP but also attenuated the systemic pressor (MAP and TPR elevation) and cardiodepressant (CI reduction) effects of TP in both PVL and BDL rats. Our results suggest that TP, alone or in combination with TMP, induced portal hypotensive effects in two models of portal hypertensive rats. Combination of TP and TMP was beneficial in enhancing portal hypotensive effects of TP and ameliorating the systemic pressor and cardiodepressant effects of TP.     

p50(cdc37) acting in concert with Hsp90 is required for Raf-1 function

Genetic screens in Drosophila have identified p50(cdc37) to be an essential component of the sevenless receptor/mitogen-activated kinase protein (MAPK) signaling pathway, but neither the function nor the target of p50(cdc37) in this pathway has been defined. In this study, we examined the role of p50(cdc37) and its Hsp90 chaperone partner in Raf/Mek/MAPK signaling biochemically. We found that coexpression of wild-type p50(cdc37) with Raf-1 resulted in robust and dose-dependent activation of Raf-1 in Sf9 cells. In addition, p50(cdc37) greatly potentiated v-Src-mediated Raf-1 activation. Moreover, we found that p50(cdc37) is the primary determinant of Hsp90 recruitment to Raf-1. Overexpression of a p50(cdc37) mutant which is unable to recruit Hsp90 into the Raf-1 complex inhibited Raf-1 and MAPK activation by growth factors. Similarly, pretreatment with geldanamycin (GA), an Hsp90-specific inhibitor, prevented both the association of Raf-1 with the p50(cdc37)-Hsp90 heterodimer and Raf-1 kinase activation by serum. Activation of Raf-1 via baculovirus coexpression with oncogenic Src or Ras in Sf9 cells was also strongly inhibited by dominant negative p50(cdc37) or by GA. Thus, formation of a ternary Raf-1-p50(cdc37)-Hsp90 complex is crucial for Raf-1 activity and MAPK pathway signaling. These results provide the first biochemical evidence for the requirement of the p50(cdc37)-Hsp90 complex in protein kinase regulation and for Raf-1 function in particular.