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通过粒子轰击对番茄新品种进行叶绿体转化。

Chloroplast transformation in new cultivars of tomato through particle bombardment.

作者信息

Tanwar Neha, Mahto Binod K, Rookes James E, Cahill David M, Bansal Kailash C, Lenka Sangram K

机构信息

TERI-Deakin Nano-Biotechnology Centre, The Energy Resources Institute (TERI), New Delhi, 110003 India.

School of Life and Environmental Sciences, Deakin University, Waurn Ponds Campus, Geelong, VIC 3216 Australia.

出版信息

3 Biotech. 2024 Apr;14(4):120. doi: 10.1007/s13205-024-03954-3. Epub 2024 Mar 25.

DOI:10.1007/s13205-024-03954-3
PMID:38545123
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10963679/
Abstract

UNLABELLED

A protocol has been established for genetic transformation of the chloroplasts in two new cultivars of tomato ( L.) grown in India and Australia: Pusa Ruby and Yellow Currant. Tomato cv. Green Pineapple was also used as a control that has previously been used for establishing chloroplast transformation by other researchers. Selected tomato cultivars were finalized from ten other tested cultivars (Green Pineapple excluded) due to their high regeneration potential and better response to chloroplast transformation. This protocol was set up using a chloroplast transformation vector () for tomatoes that is made up of a synthetic gene operon. The vector has a chimeric selectable marker gene that is controlled by the rRNA operon promoter (). This makes the plant or chloroplasts resistant to spectinomycin and streptomycin. After plasmid-coated particle bombardment, leaf explants were cultured in 50 mg/L selection media. Positive explant selection from among all the dead-appearing (yellow to brown) explants was found to be the major hurdle in the study. Even though this study was able to find plastid transformants in heteroplasmic conditions, it also found important parameters and changes that could speed up the process of chloroplast transformation in tomatoes, resulting in homoplasmic plastid-transformed plants.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s13205-024-03954-3.

摘要

未标注

已建立了一种用于印度和澳大利亚种植的两个番茄(L.)新品种叶绿体遗传转化的方案:普萨红宝石和黄醋栗。番茄品种绿菠萝也用作对照,此前其他研究人员曾用其建立叶绿体转化。从其他十个测试品种(不包括绿菠萝)中最终选定了这些番茄品种,因为它们具有较高的再生潜力且对叶绿体转化反应较好。该方案使用了一种由合成基因操纵子组成的番茄叶绿体转化载体()来建立。该载体有一个嵌合的选择标记基因,由rRNA操纵子启动子()控制。这使得植物或叶绿体对壮观霉素和链霉素具有抗性。在用质粒包被的微粒轰击后,将叶片外植体在50mg/L的选择培养基中培养。在所有看似死亡(从黄色到棕色)的外植体中筛选阳性外植体是该研究中的主要障碍。尽管这项研究能够在异质条件下找到质体转化体,但也发现了一些重要参数和变化,这些可以加快番茄叶绿体转化过程,从而获得同质质体转化植株。

补充信息

在线版本包含可在10.1007/s13205-024-03954-3获取的补充材料。