英国论文代写哪家好:遗传因素会影响乳腺癌吗?

英国论文代写哪家好:遗传因素会影响乳腺癌吗?

在癌症中,基因被破坏,它们与乳腺癌有关。科学家和医生仍在调查身体受乳腺癌影响的主要部位。异常基因会增加患病风险,但不如异常BRCA2和BRCA1基因多。该研究并不关注ATM、BRIP1、CDH1、CHEK2、MRE11A、NBN、PALB2、PTEN、RAD50、RAD51C、STK11和TP53等其他基因。

英国论文代写哪家好:遗传因素会影响乳腺癌吗?

研究人员仍在调查基因突变。ATM基因有助于修复受损的DNA。遗传信息是由细胞内的DNA来执行的。这些异常基因的遗传导致一种罕见的疾病,称为共济失调毛细血管扩张症,影响脑细胞。ATM基因与胰腺癌和乳腺癌发病率的增加有关,因为异常基因阻止细胞修复受损的DNA。BRIP1基因负责修复受损的DNA。异常BRIP基因的遗传与卵巢癌和乳腺癌的高风险有关。CHDI基因产生的蛋白质帮助细胞结合形成组织。异常的CDHI基因会增加患胃癌的风险。异常的CDH1基因使女性患乳腺癌的风险增加到52%。CHEK2基因为产生一种阻止肿瘤生长的蛋白质提供了方向(Heath, 2011)。异常的CHEK2基因会使患乳腺癌的风险加倍。MRE11A基因以及NBN和RAD50基因形成了一个MRN复合物,帮助修复细胞中受损的DNA。异常的MRE11A基因附着于间质毛细血管扩张。这些疾病通过破坏免疫系统而增加患癌症的风险。

英国论文代写哪家好:遗传因素会影响乳腺癌吗?

In cancer, genes are damaged, and they associated with the breast cancer. The scientists and doctors are still investigating the major parts of the body that are affected by the breast cancer. The abnormal genes increase the risk but not as much as the abnormal BRCA2 and BRCA1 genes. The research study does not focus on other genes such as ATM, BRIP1, CDH1, CHEK2, MRE11A, NBN, PALB2, PTEN, RAD50, RAD51C, STK11 and TP53.

英国论文代写哪家好:遗传因素会影响乳腺癌吗?

The investigators are still investigating on genetic mutations. The ATM gene helps to repair the damaged DNA. The genetic information is carried out by the DNA in the cells. The inheritance of these abnormal genes causes a rare disease named ataxia-telangiectasia that affects the brain cells. The ATM genes are linked to the increase in the rate of the pancreatic and breast cancer because the abnormal genes prevent the cells to repair the damaged DNA. The BRIP1 genes work to repair the damaged DNA. The inheritance of abnormal BRIP genes is associated with the higher risk of both ovarian and breast cancer. The CHDI genes produce proteins that assist the cells to combine in order to form tissues. The abnormal CDHI genes increase the risk of a stomach cancer in the body. The abnormal CDH1 genes increase the risk of breast cancer to 52% in the women. The CHEK2 gene provides directions for producing a protein that prevents the growth of the tumour (Heath, 2011). The abnormal CHEK2 genes can double the risk of the breast cancer. The MRE11A gene along with the NBN and RAD50 genes form an MRN complex that helps to repair the damaged DNA in the cells. The abnormal MRE11A genes are attached to the ataxia-telangiectasia. The diseases increase the risk of cancer by damaging the immune system.