公司职员出国研修的感谢信(精选多篇)

公司职员出国研修的感谢信(精选多篇)

正文第一篇：职员出国研修的感谢信尊敬的xx：

感谢公司能给我这次赴韩研修的机会，能从这次面试中选中我，我非常的荣幸，此时此刻我无法形容现在的心情，非常非常的高兴，只能以感谢信的方式表达我对组合对公司的感谢。

说实话，我只是单位一个普通的员工，惶惶度日，基本没有发展个前途可言，只能做单位最底层的人，但是你们给了我这次赴韩学习的机会，我会以自己最大的努力，来实现自己的梦想。

公司选中我，我会非常努力，以最短的时间学好韩语，不能到了韩国之后，让语言成为自己的累赘，我会用心，去了解韩国的语言，礼仪，文化等等

虽然没有华丽的语言，文字，我会以我的实际行动来不断的完善自我，充实自我。最后想向公司表示由衷的感谢、谢谢。

第二篇：出国留学研修计划研修计划

我叫***，现就职于***，从事****工作9年，衷心希望能够参加日本政府青年领导者奖学金项目，进入日本一桥大学攻读硕士学位。

我于20XX年毕业于****大学，该校是中国教育部直属重点大学。在校期间，我主修金融学专业，认真学习了经济学基础理论和金融、财政、国际贸易、会计等专业知识。在认真学习本专业的同时，我对日本社会经济和历史文化产生了浓厚兴趣，并希望有朝一日能赴日本学习世界最前沿的经济、管理学知识以及最先进的企业管理经验，为祖国经济建设服务。

大学毕业后，我一直从事****工作，经常要接触到企业内部控制、风险管理、市场营销等方面的内容。在工作过程中，我感觉到在社会经济迅速发展、知识结构不断更新的现代社会，管理学的地位日益重要，而在工作中我也遇到一些问题很难用已有的知识解决，更使我有了进一步求学的强烈愿望。日本的经济发展水平居世界前列，在企业管理方面的成果也是有目共睹，因此，在家人支持下，我决定申请日本政府青年领导者奖学金项目，赴一桥大学攻读研究生课程，希望能够在一桥大学专家的指导下，在管理学方面进行更深入的研究，以更好地解决工作中的问题，服务中国经济建设。

我从中学开始刻苦学习英语，大学期间顺利通过了英语六级考试，能够比较顺利地使用英语进行交流，并具备较强的金融专业英语听说读写能力，能够满足一桥大学青年领导者奖学金项目全英语授课、并用英语完成论文的基本要求。

一桥大学在商科和经济学方面享有盛誉，培养出了一大批日本工商金融界的精英人物。进入一桥大学之后，我将认真学习一桥大学先进的管理学和经济学科研成果，深入研究日本经济发展、企业管理以及**业发展和监管的经验教训，积极与日本以及来自世界各地的同学交流沟通，努力提高自己的英语、日语水平，开阔视野，提高自身综合素质。预计通过一年时间的学习，我将扎实掌握经济学、管

理学专业知识，科学研究能力将有大幅提高，英语、日语水平也将有较大提高。

学习结束后(一篇好范文带来更多轻松：)，我将回到中国，把所学到的知识运用到****工作中，为中国****业发展服务，为中国经济建设服务。

第三篇：出国研修计划research plan

1. research title

regulation of lipoxygenase gene expression under low oxygen condition in soybean 2. research background

soybean deterioration and the development of a stale flavor during storage are serious problems that reduce the quality of stored seeds. fatty acids oxidation is the major cause for the aging in the soybean. the changes of the fatty acids mostly lie on the gene of soybean variety as well as the storage conditions such as temperature, humidity and atmosphere state.

soybean lipoxygenase, greatly consist in mature embryo of the plant seed. lipoxygenases (ec 1.13.11.-) are a family of iron-containing enzymes that catalyse the dioxygenation of polyunsaturated fatty acids in lipids containing a cis, cis-1,4- pentadiene structure. it catalyses the following reaction: fatty acid + o2 = fatty acid hydroperoxide. loxs are also thought to play an important role in the formation of desirable or undesirable flavor and aroma in many plant products.

low temperature, low o2 or high co2 was reported to regulate the lox gene expression, especially the low o2 treatment which was able to suppress the accumulation of aging production including the total acid and fatty acid. therefore, it is necessary to define the lox expression in different soybean varieties stored at the low o2 condition.

3. current research condition

the phd student will be expected to participate in the research project described above but more involved in the study on lox genes in soybean. the student will be mentored by a multidisciplinary science team led by dr. sangeeta dhaubhadel. the other team members include dr. yuhai cui, dr. robert forster and dr. david from aafc-parc. dr. dhaubhadel is a senior aafc research scientist with over 30 years working experience and he has more than 10 years of experience in molecular plant virology, molecular biology and genetic engineering. his research areas have involved in plant breeding, plant tissue culture and molecular soybean breeding. dr. cui and mr.

forster are two major technical support staffs in the research team. dr. forster is an expert with 20 years of experience in plant transformation. mr. david is good at lab management, experimental designs and techniques in molecular biology and

biochemistry. the team is made up of disciplines in molecular biology, crop breading and plant biotechnology.

4. research aims

the objective of this study is to analysis the gene sequence and expression of the lox3 in the soybean varieties stored in low o2 (1% o2) and low temperature. several model soybean breed will be chosen in the express pattern of each lox3 gene and the adjust sequence will be found. the comparison would be carried among different lox3 gene in soybean through dnastar software in order to select the key sequence area or gene point.

after that we will design the molecule marker regulating lox3 gene expression. finally the impact of the low o2 on the lox3 gene expression and the key sequence area would be defined.

the knowledge gained from this research may lead to new approaches to design/ select soybean cultivar with increased or decreased lox3 levels, or to produce isoflavonoids in non-legume crops for human health and nutrition. soybean is an important crop for both canada and china, thus the outcome of the project will benefit both countries. the student will obtain high quality training for conducting research in molecular biology, functional genomics, transient and stable plant transformation, plant tissue culture and fruit chemistry.

5. research methods

the present research aims to investigate the adductive effect of low o2 on the lox enzyme activity and the lox3 gene expression during the storage period of the soybean. the conservative region of lipoxygenase gene (lox) from seed total rna of soybean was amplified using degenerate primers, which was combined with the ests of lox genes from genebank, and the gsp primers would be designed after blast aligning and sequence in stalling. three full-length different cdna sequences will be obtained, which were named pplox1~3 (genbank accession no.eu883638, fj029110 and

fj0320XX). the sequence analysis of the three members of soybean lox gene family had a high homogeneous with other plant lox genes in protein level, but high heterogeneous in nucleotide level. phylogenetic tree based on loxs in soybean. with the help of special lox3 gene, the adjustive sequence of lox gene in soybean treated with low o2 can be degraded; preventing translation of that transcript and, ultimately, expression of the gene.

6. time plans

20XX/12-20XX/03

gene primers design, construction and screening.

it includes (i) database (genomic and est) searching for all lox3 gene sequence information related to soybean; (ii) analysis of the sequence information and design gene specific amirnas; (iii) making amirna constructs; (iv) screening and selection of high expressed amirna construct using transient expression assay system established in the dhaubhadel laboratory in aafc-parc. the student will be trained in research reference study, research strategy development, experimental design and planning, bioinformatics analysis, molecular biology operation, etc.

20XX/04-20XX/12

transformation and regeneration of soybean with plant amirna vectors.

it involves agrobacterium-mediated plant transformation, plant tissue culture and plant regeneration, identification of different transgenic plant lines, and obtaining enough transgenic populations for functional genomic analysis, etc.

20XX/01-20XX/08

functional analysis of lox3 genes.

it includes research in (i) detection of different amirna expressions in transgenic plant lines by rna northern blot analysis; (ii) detection of mrna productions of different lox genes in transgenic plant lines by reverse-transcript quantitative pcr (rt-qpcr) or rna northern blot; (iii) detection of protein expressions of the lox; (iv) detection of lox enzyme activities in different tissues of the transgenic plant lines; (v) soybean aging. 20XX/09-20XX/12

data analysis and writing manuscripts for publication.

it includes data analysis, completion of research reports and scientific manuscripts. some research publications could be promoted ahead of the schedule based on our research progress. further collaborative research projects probably will be developed from this research for the student to carry on the directions in china.

7. work introduction after returning to china

1. finishing doctoral degree thesis;

2. keeping studying in the research field and serving my motherland.

supervisor:

date: 3/16/20XX