Ca+GA_(3)处理对减轻芦柑裂果的生理与分子机制研究

【目的】探究减轻芦柑裂果的生理与分子机制。【方法】以10年生早熟芦柑(易裂品种)为试材,果面喷施0.3 g·L^(-1)螯合钙和10 mg·L^(-1)GA_(3)为处理,以清水为对照(CK)。测定裂果率和果实外观品质,同时测定果皮ROS含量和抗氧化能力、细胞壁代谢酶活性和结构成分含量,以及抗氧化酶和细胞壁代谢酶相关基因表达差异。【结果】Ca+GA_(3)处理有效降低了裂果率,增大了芦柑果形指数、单果质量和果顶果皮厚度;提高了芦柑果皮中抗氧化酶SOD、CAT活性,降低了H_(2)O_(2)、O_(2)^(·-)产生速率和MDA含量以及POD、PPO活性。同时,Ca+GA_(3)处理提高了芦柑果皮果胶、纤维素含量,降低木质素含量以及PME、PL、PG、CX和PAL、4CL、C4H活性;提高了果皮的延展性和韧性,减少了裂果的发生。Ca+GA_(3)处理显著提高了抗氧化酶相关基因CrSOD、CrCAT在芦柑果皮中的相对表达量,降低了CrPOD、CrPPO以及细胞壁代谢相关基因CrPME、CrPL、CrPG、CrCX、CrPAL、Cr4CL、CrC4H的相对表达量。【结论】在生理与分子水平上明确了Ca+GA_(3)处理可以通过调控果皮活性氧代谢与细胞壁代谢来降低裂果率。研究结果对生产上预防和减轻芦柑裂果具有一定理论意义和应用价值。

溅射功率及退火处理对Ga_(2)O_(3)薄膜特性的影响

采用JGP-300型超高真空磁控溅射镀膜设备在蓝宝石衬底上制备了Ga_(2)O_(3)薄膜,研究了溅射功率和退火工艺对薄膜晶体结构、表面形貌和光学特性的影响。研究结果表明:当溅射功率为90 W时,Ga_(2)O_(3)薄膜的(-402)衍射峰最强,薄膜结晶质量最好。退火后Ga_(2)O_(3)薄膜的结晶度均有所加强。随着溅射功率的增加,Ga_(2)O_(3)薄膜变得均匀致密,但溅射功率过高反而影响成膜质量。Ga_(2)O_(3)薄膜吸收边在250 nm附近,在Ga_(2)O_(3)可见光区域透过率可达85%以上,且在450~500 nm处接近100%。退火处理可以进一步提高薄膜的透过率。Ga_(2)O_(3)薄膜的禁带宽度随溅射功率的提高而减小,分布在4.8~5.0 eV,且退火后禁带宽度整体减小。这表明退火处理使得大部分Ga_(2)O_(3)转化为最稳定的β相。

Effects of Gibberellic Acid (GA_(3)) and Salicylic Acid (SA) postharvest treatments on the quality of fresh Barhi dates at different ripening levels in the Khalal maturity stage during controlled atmosphere storage

Barhi dates at Khalal maturity stage are well-known with their pleasant taste,crispy texture,and bright yellow color.It is necessary to extend the duration of Barhi Khalal stage which is too short for effective marketing.This study aimed to inspect the effects of Gibberellic Acid(GA_(3))and Salicylic Acid(SA)postharvest treatments on retaining the high quality of Khalal Barhi fruits during controlled atmosphere storage.Fresh samples of Barhi fruits at Khalal stage harvested at three different ripening levels were dipped after harvesting in GA3(150 ppm)or SA(2.0 mmol/L)and subsequently stored in controlled atmosphere(0°С,5%O_(2),5%CO_(2),80%±5%RH).The results revealed that the GA_(3) and SA treatments reduced the percentage of weight loss and decay in the fruits,while the total soluble solids increased.Moreover,GA_(3) and SA treatments were significantly efficient in limiting the changes in fruit color and texture of Barhi dates compared to the control.Sensorial results support the experimental data and disclosed that the GA_(3)(150 ppm)treatment in the controlled atmosphere(CA)storage was better in conserving the quality of Barhi at the Khalal maturity stage and delaying ripening process.

尾巨桉良种无性系DH32-28高效植株再生体系的建立

本研究以尾巨桉(Eucalyptus urophylla×E.grandis)三种良种无性系DH32-26、DH32-28和DH32-29的无菌增殖苗为实验材料,旨在探讨植物生长调节剂对增殖苗节间伸长和植株再生的影响,并进一步研究了无性系、植株类型和外植体类型对植株再生能力的影响。此外,还以易再生无性系DH32-28为材料,进一步研究植物生长调节剂和愈伤组织诱导时间对再生的影响。结果表明,无性系是影响尾巨桉离体再生的主要因素,DH32-28的再生效率显著高于DH32-26和DH32-29的;GA_(3)或IBA处理后增殖苗的节间均能显著伸长,其中GA_(3)处理获得的DH32-28伸长苗的芽再生率最高,并且再生芽个数最多;不同外植体类型的芽再生率差异显著,其中DH32-28伸长苗茎段芽再生率最高,其次是叶柄和叶片。最适宜DH32-28离体植株再生的条件为:增殖苗经过GA_(3)处理20 d后的伸长苗节间茎段作为外植体,最适宜的愈伤组织培养基为:1/2 MS+0.22 mg/L TDZ+0.019 mg/L NAA+30 g/L蔗糖+7 g/L琼脂,诱导时间为20 d;最适宜的再生芽诱导培养基为:1/2 MS+0.25 mg/L 6-BA+0.125 mg/L NAA+30 g/L蔗糖+7 g/L琼脂,诱导30 d的芽再生率达95.00%;在根诱导培养基(1/2 MS+0.5 mg/L IBA+30 g/L蔗糖+7 g/L琼脂)上再生芽均可生根。本研究成功建立了尾巨桉良种无性系DH32-28茎段高效植株再生体系,为进一步的遗传转化体系建立及后续基因功能和基因工程等研究奠定了基础。