Genotypic Diversity Affects Age Structure of Tiller and Rhizome of Leymus chinensis Population,But Not Age Structure of Bud

The effect of genotypic diversity on the age structure and bud bank of the Leymus chinensis population has not yet been demonstrated.This experiment was designed to study the age structure of the tiller,rhizome,and bud of L.chinensis at genotypic diversity levels of 1,2,4,8,and 12.A total of 64 communities were established in this experiment,following the principle of randomized block experimental design.The results indicated that genotypic diversity had a significant or obviously significant effect on the cumulative length of rhizomes of 2a and 4a,dry matter accumulation of rhizomes of 1a and 2a,tiller number of 1a,tiller productivity of 3a,but had no significant effect age structure of buds.As the levels of genotypic diversity increased,the proportion of the cumulative length of rhizomes with 4a decreased and then increased,and dry matter accumulation of rhizomes with 1a and 2a gradually increased while the number of tillers with 1a gradually decreased,when the gradient of genotypic diversity increased.At the 1,2,4,8,and 12 genotype diversity levels,the number of tillers,the cumulative length of rhizomes,and dry matter accumulation in rhizomes and buds were all age structures of expanding type.However,tiller productivity was an expanding or stable age structure at levels of 1,2,4,8 genotypic diversity,while it was a declining age structure at the 12 genotype diversity gradient.An appropriate genotypic diversity is conducive to maintaining the growth and stability of the age structure of L.chinensis population,but too high a gradient of genotypic diversity can have a negative impact on the population age structure.This study provided that an appropriate number of genotypic diversity contributes to the stability of the population.

Paclitaxel-etoposide-carboplatin/cisplatin versus etoposidecarboplatin/cisplatin as first-line treatment for combined small-cell lung cancer: a retrospective analysis of 62 cases

Objective: To compare the efficacy and adverse effects of paclitaxel-etoposide-carboplatin/cisplatin(TEP/TCE) regimen with those of etoposide-carboplatin/cisplatin(EP/CE) regimen as first-line treatment for combined small-cell lung cancer(CSCLC).Methods: A retrospective study was conducted on 62 CSCLC patients who were treated at Tianjin Medical University Cancer Institute and Hospital from July 2000 to April 2013 and administered with TEP/TCE regimen(n=19) or EP/CE regimen(n=43) as first-line CSCLC treatment. All patients received more than two cycles of chemotherapy, and the response was evaluated every two cycles. The primary endpoint was overall survival(OS), and the secondary endpoints were progression-free survival(PFS), objective response rate(ORR), disease control rate(DCR), and adverse effects. Results: ORR between the TEP/TCE and EP/CE groups showed a statistical difference(90% vs. 53%, P=0.033). Both groups failed to reach a statistical difference in DCR(100% vs. 86%, P=0.212). The median PFS and OS of the TEP/TCE group were slightly longer than those of the EP/CE group, although both groups failed to reach a statistical difference(10.5 vs. 8.9 months, P=0.484; 24.0 vs. 17.5 months, P=0.457). However, stratified analysis indicated that the PFS of patients with stages III and IV CSCLC showed marginally significant difference between the TEP/TCE and EP/CE groups(19.5 vs. 7.6 months; P=0.071). Both rates of grade IV bone marrow depression and termination of chemotherapy in the TEP/TCE group were significantly higher than those in the EP/CE group(26.3% vs. 7.0%, P=0.036; 31.6% vs. 14.7%, P=0.004). Conclusion: The TEP/TCE regimen may not be preferred for CSCLC, and this three-drug regimen requires further exploration and research. To date, the EP/CE regimen remains the standard treatment for CSCLC patients.

Research and Application Progress of Silk Fibroin Membranes

This paper mainly introduced the preparation of silk fibroin membranes and their structural change characteristics.Silk fibroin membranes can be used as tissue engineering materials,enzyme-immobilizing membranes,biosensors and drug controlled-release membranes and other different materials.They have excellent characteristics such as non-toxic,non-polluting and degradable,and thus have broad application prospects.

Growth and production characters of elymus cylindricus in different shortening heading time

Ramet modules in a certain population differ in terms of functions,which accounts for different contributions of the same ramets.Shortening heading time brings about different contributions of such modules.Ramets heading one after another were treated as a continuum in respective cohorts of Elymus cylindricus aged two.The reproductive ramets that head earlier were marked with tags every four days during the whole heading stage from the beginning to the end,after which all the labeled ramets at the maturity period were gathered.The results showed that,the height and biomass of ramets,the length and biomass of inflorescences,percentage of inflorescence length to ramet height,percentage of inflorescence biomass to ramet biomass,the number and biomass of seeds,seed-setting rate,and percentage of seed biomass to ramet biomass declined with the increasing intensity of heading time shortening as displayed with linear or quadratic function.Ramet characteristics weakened remarkably when shortened heading time added up to 17 days.The biomass distribution in relation to inflorescence and seed maintain a stable rate at the early heading stage and dwindled quickly at the near-end stage,but the biomass of ramets remain constant throughout the entire heading stage.The ramets with earlier heading time make greater contribution to the survival of population than the shortened heading time in this species of bunchgrass.

Feasibility of DNA Barcoding for Definition of Forage Mulberry

The planting and afforestation of mulberry and its application as animal feed conform to the spirit that comprehensive utilization of biomass such as agriculture and forestry is the direction of sustainable development in the National Program for Medium-to-Long-Term Scientific and Technological Development . The application of mulberry as animal feed has attracted international attention, but the cultivar identification of forage mulberry is still controversial in the industry. The paper summarizes the current situation of forage mulberry in animal husbandry, and expounds how to define and classify forage mulberry.

Silk Nerve Conduits for Peripheral Nerve Regeneration

Silk can promote the penetration of oxygen and water and support the attachment and proliferation of neurons and Schwann cells,and has appropriate biodegradation kinetics and flexible physical strength.It is a high-quality natural tissue engineering material and can be used as an ideal matrix for nerve repair.This paper reviewed the structure and properties of silk and the research progress of silk nerve conduits in peripheral nerve regeneration in recent years,and prospected its clinical application.

Technical Methods for Recovering Sericin from Degumming Wastewater

Silk sericin is a natural polymer,which is often discarded as waste in silk reeling production.Sericin protein increases the COD value of degumming wastewater and increases the difficulty of sewage treatment.The recovery and utilization of sericin protein can minimize environmental problems,and has high scientific and commercial value.This paper introduced and analyzed current technical methods of recycling sericin from silk degumming wastewater,providing a reference for the utilization of recovered sericin.

Sequential activation of uterine epithelial IGF1R by stromal IGF1 and embryonic IGF2 directs normal uterine preparation for embryo implantation

Embryo implantation in both humans and rodents is initiated by the attachment of a blastocyst to the uterine epithelium.For blastocyst attachment,the uterine epithelium needs to transform at both the structural and molecular levels first,and then initiate the interaction with trophectoderm.Any perturbation during this process will result in implantation failure or long-term adverse pregnancy outcomes.Endocrine steroid hormones,which function through nuclear receptors,combine with the local molecules produced by the uteri or embryo to facilitate implantation.The insulin-like growth factor(IGF)signaling has been reported to play a vital role during pregnancy.However,its physiological function during implantation remains elusive.This study revealed that mice with conditional deletion of Igflr gene in uteri suffered from subfertility,mainly due to the disturbed uterine receptivity and abnormal embryo implantation.Mechanistically,we uncovered that in response to the nidatory estrogen on D4 of pregnancy,the epithelial IGF1R,stimulated by the stromal cell-produced IGF1,facilitated epithelial STAT3 activation to modulate the epithelial depolarity.Furthermore,embryonic derived IGF2 could activate both the epithelial ERK1/2 and STAT3 signaling through IGF1R,which was critical for the transcription of Cox2 and normal attachment reaction.In brief,our data revealed that epithelial IGF1R was sequentially activated by the uterine stromal IGF1 and embryonic IGF2 to guarantee normal epithelium differentiation during the implantation process.

Pharmacokinetic study and metabolite identification of the bidesmosidic triterpenoid saponin BTS-1 in rat plasma

Assays based on high-performance liquid chromatography(HPLC)and liquid chromatography tandem mass spectrometry(LC–MSn)have been developed and validated for the determination and metabolite identification of the bidesmosidic triterpenoid saponin,BTS-1(3-O-β-D-galactopyranosyl-(1-2)-[β-D-xylopyranosyl-(1-3)]-β-D-glucuronopyranosyl gypsogenin 28-O-α-L-arabinopyranosyl-(1-3)-βD-xylopyranosyl-(1-4)-α-L-rhamnopyranosyl-(1-2)-β-D-fucopyranoside),in rat plasma.The assay was successfully applied to a pharmacokinetic study in rats given a single oral dose of BTS-1(400 mg/kg).The results indicated that the compound was rapidly absorbed(Tmax=1.2870.29 h,Cmax=37.475.6 mg/mL)and slowly eliminated(t1/2=13.276.6 h).In addition,secondary glycosides and aglycones of BTS-1 were detected and identified.Since these metabolites are known to be activeα-glucosidase inhibitors,they probably play an important role in mediating the pharmacological effects of the saponin.

PHASE TRANSITION IN SEQUENCE UNIQUE RECONSTRUCTION

在这份报纸，定序唯一的重建指 asequence 从所有是特别地可重建的性质它的是 K 元组。我们关于元组尺寸 K inrandom 序列(iid 模型) 建议并且学习唯一的重建的概率 P (K) 的 phasetransition 行为。基于蒙特卡罗实验，人工的蛋白质产生了 fromiid 模型当 P (K) 突然地从一个低价值阶段跳时，展出阶段转变(例如 > 0.1 ) toa 高度价值阶段(例如 < 0.9 ) 。与到任何字母表的归纳，当时，我们证明为长度 L 的 randomsequence，因为 L 足够大， P (K) 经历锋利的阶段转变 p ≤ 0.1015where p = P (字母匹配的二随机) 。而且，公式被导出估计 transitionpoints，它可能具有在由杂交定序 DNA 的实际使用。从我们的学习得出结论，大多数蛋白质不在顺序 uniquereconstruction 的意义从随机的序列极大地背离，当有一些“玩固”的蛋白质，仅仅特别地成为 reconstructableat 时很大的 K 并且可能有生物含意。

Frontier Progress in the Establishment of Trophoblast Stem Cell and the Identification of New Cell Subtypes at the Maternal-Fetal Interface

Proper development of the human placenta is of vital importance for a successful pregnancy,and a series of pregnancy complications are considered originating from dysfunctional placentas.Like other organ system development,placentation requires large numbers of co-regulators,while the underlying molecular mechanisms orchestrating the placental formation and function are poorly understood.Although we have made many signs of progress in understanding the placental architectures and developments using mouse models,the species-specific differences impede our progress due to the lack of appropriate model systems.In the past few years,major progress has been made by the establishment of novel in-vitro self-renewing stem cell models,as well as identifying the full picture of the cellular organization of the maternal and fetal interface.Providing the tools for the investigation of placentation and reproductive-related regulation mechanism.In this review,we focus on the detailed progress of the human trophoblast stem cells culturing system,and the cellular and molecular terrain at the maternal-fetal interface,respectively,thus providing new insights into placental development.