Objective To explore the role of p170, MRP, bcl-2 in clinical drug- resistance and their correlation. Methods There are 44 acute leukemia(AL) patients, among them ANLL is 29, ALL is 15.The expression of p170, MRP, bcl-2 were detected. At last, the patients were divided into two groups: CR and NR according to efficacy after two periods standard chemotherapy. Results Overexpression of p170, MRP,bcl-2 were found in AL (P ＜0.05). The expression of p170 and MRP were lower in CR group than that in NR groups in AML and ALL; there were 22 of 24 patients expressed one or two proteins in NR groups and the expression of p170 in patients was concordant with that of MRP to certain extent (P ＜0.01). The overexpression of bcl-2 was related with the worse prognosis. The expression of bcl-2 was lower significantly in CR group than in CR and NR (P＜0.05). Conclusion p170, bcl-2, MRP are all associated with clinical MDR. High expression of these proteins is an unfavorable factor to prognosis. The expression of MRP and p170 showed coincidence, but showed no significance with expression of bcl-2 in untreated patients, it indicated that the drug-resistance mediated by p170 was different from bcl-2.

Objective:To observe the protective effects of genistein(GST) on the medulla oblongata neurons in ovariectomized rats. Methods:Rats with bilaterally ovariectomized were injected genistein 200 ?g/(kg?d) for 6 weeks. The madlondialdehyde(MDA)and superoxide dismutase(SOD)activity of medulla oblongata were measured, and the ultrastructure of medulla oblongata neurons were observed. Results:In the GST group,the MDA activity was reduced and SOD activity was increased compared with the OVX group. The ultrastructure of medulla oblongata neurons showed pathological changes in OVX group. These ultrastructure was not find in GST group. Conclusion:GST could protect neurons of medulla oblongata, which might be related to eliminate oxygen free radical.

ObjectiveTo investigate the effect of the combined application of organic fertilizer and chemical fertilizer at different ratios on the growth， yield and quality of two-year-old Belamcanda chinensis and provide a scientific basis for fertilization to achieve high yield and quality of this medicinal plant. MethodIn a field plot experiment， we designed five fertilization patterns with organic fertilizer and chemical fertilizer at different ratios： OM₀ （pure chemical fertilizer）， OM₁ （30% organic fertilizer + chemical fertilizer， application of organic fertilizer at 2 567 kg·hm^-2）， OM₂ （50% organic fertilizer + chemical fertilizer， application of organic fertilizer at 4 283 kg·hm^-2）， OM₃ （70% organic fertilizer + chemical fertilizer， application of organic fertilizer at 6 000 kg·hm^-2）， and OM₄ （pure organic fertilizer， 8 567 kg·hm^-2）. The effect of different fertilization patterns on the agronomic properties， herb yield， flavonoid content， mineral element content， and fertilizer utilization rate of B. chinensis were determined. ResultThe combined application of organic fertilizer and chemical fertilizer at an appropriate ratio increased the leaf width and promoted tillering， thereby improving the yield of B. chinensis. The yield of OM₁ and OM₂ groups increased by 6.65% and 13.10%， respectively， compared with that of OM₀ group， while too high a proportion of organic fertilizer led to a decrease in yield. With organic fertilizer application， the content of mangiferin， tectoridin， iridin， tectorigenin， irigenin， and irisflorentin in the rhizomes of B. chinensis increased. Moreover， a certain proportion of organic fertilizer facilitated the accumulation of functional elements such as K， Fe and Cu. The results of the principal component analysis showed that the overall quality of B. chinensis was ranked in the order of OM₃ > OM₂ > OM₁ > OM₄ > OM₀. The OM₂ group had the maximum accumulation of N， P and K and the maximum partial factor productivity of fertilizer. ConclusionAccording to the agronomic traits， yield， quality indexes and fertilizer utilization rate of B. chinensis under different fertilization patterns， we recommended to apply 4 283 kg·hm^-2 organic fertilizer in combination with chemical fertilizer to the production of two-year-old B. chinensis， so as to improve the quality and yield of B. chinensis.

ObjectiveTo clarify the accumulation and distribution characteristics of dry matter and mineral elements in Artemisia argyi var. argyi cv. Qiai， and to provide technical support for the high yield of and efficient utilization of nutrients in this medicinal species. MethodTwo cultivars of this species， Qiqing 1 and Qihuang 1 were selected， and the composition of dry matter in different organs， the content， accumulation， and distribution of mineral elements in each organ of the two cultivars， and the dynamic changes of volatile oil content and index components eucalyptol and borneol in leaves of the two cultivars were monitored at different growth stages. ResultThe period from February to March marked the early growth stage of Qiai， and the dry matter was mainly distributed in the leaves. It accelerated the growth in April， and the period from April to mid-June witnessed the vigorous vegetative growth of Qiai， during which the dry matter was mainly found in the stems and leaves. It began the reproductive growth from late June and the dry matter was mainly distributed in the stems. In the flowering stage in August， no dry matter accumulation occurred. As for the volatile oil， the content was high （> 1.10%） at the vigorous vegetative growth stage and peaked on June 14 （1.33% in Qiqing 1， and 1.23% in Qihuang 1）. The relative mass fraction of eucalyptol was the maximum at the vegetative growth stage （8.67% in Qiqing 1， and 13.07% in Qihuang 1）. The relative mass fraction of borneol peaked at the early growth stage （2.63% in Qiqing 1， and 5.94% in Qihuang 1）. The content of nitrogen， phosphorus， potassium， and zinc in leaves was in significantly positive correlation with the content of volatile oil and the relative content of eucalyptol and borneol. The content of macroelements nitrogen， phosphorus， potassium， and calcium and trace elements iron and zinc peaked at the early growth stage， and the content was the highest in stem and leaf. The content of macroelement magnesium and trace elements manganese and copper was the highest at vegetative growth stage when the content of other elements decreased and the nutrients were gradually transferred to the buds， flowers and other organs. In the whole growth period， the distribution of potassium， calcium， and zinc was in the order of leaf > stem > root， and the distribution of nitrogen， phosphorus， copper， magnesium， and manganese followed the order of leaf > root > stem. The distribution of iron was in the order of root > leaf > stem. There was a significantly positive correlation between the total amount of dry matter and the absorption of nutrients in 'Qiai'. The absorption of macroelements by Qiai was in the order of potassium > nitrogen > calcium > phosphorus > magnesium， and the ratio of absorbed elements was about 2.66∶2.51∶0.6∶0.11∶0.04. The absorption of trace elements followed the order of manganese > iron > zinc > copper， and the ratio of absorbed elements was about 0.25∶0.17∶0.05∶0.04. In terms of the production of medicinal materials， 'Qiai' needed about 4.11 kg potassium， 3.58 kg nitrogen， 0.91 kg phosphorus， 0.18 kg calcium， 0.06 kg magnesium， about 6.64 g manganese， 2.56 g iron， 1.30 g zinc， and 0.92 g copper to produce 100 kg medicinal materials. ConclusionEnough organic fertilizer and phosphorus and potassium fertilizers should be applied as base fertilizers for Qiai. The vegetative growth stage （April-June） marks the high accumulation of dry matter and large demand of nutrients， during which topdressing should be conducted timely and early， especially nitrogen fertilizer， and appropriate amount of micro-element fertilizer should be added. Qiai needs a large amount of calcium and magnesium fertilizers from the mid-vegetative growth stage， and they should be applied in time in the late stage to ensure the vegetative growth of the plants for seeds and the quality of the medicinal material of Qiai.