数学能够更好地治疗癌症吗
<h1 style="color: black; text-align: left; margin-bottom: 10px;"><span style="color: black;">源自</span>:生物谷</h1>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;">生物个体的<span style="color: black;">存活</span>与发展离不开细胞感知并正确响应其环境的能力。细胞<span style="color: black;">经过</span><span style="color: black;">叫作</span>为“信号通路”的化学信号系统进行通信,<span style="color: black;">从而</span>协调细胞活性。<span style="color: black;">然则</span>,信息处理能力的<span style="color: black;">损害</span>可能会<span style="color: black;">引起</span>细胞<span style="color: black;">没</span>法正确感知其环境,这<span style="color: black;">亦</span>是<span style="color: black;">引起</span>癌症发展的可能<span style="color: black;">原由</span>之一。为了更好地<span style="color: black;">认识</span>信息传输过程的受损<span style="color: black;">怎样</span>影响患病细胞的活动,瑞士日内瓦大学(UNIGE)的<span style="color: black;">科研</span>人员提议<span style="color: black;">按照</span>信息理论<span style="color: black;">检测</span>细胞通信<span style="color: black;">情况</span>。</p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;">众所周知,信息理论并非生物学<span style="color: black;">行业</span>的概念,而是计算机科学中更常用的数学理论。这项在《Trends in Cell Biology》杂志上<span style="color: black;">发布</span>的<span style="color: black;">文案</span>为肿瘤学<span style="color: black;">科研</span><span style="color: black;">供给</span>了一种全新的<span style="color: black;">办法</span>。</p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><span style="color: black;">文案</span>作者,来自UNIGE医学院肿瘤血液学转化<span style="color: black;">科研</span>所的<span style="color: black;">科研</span>员Karolina Zieliska说:“从某种<span style="color: black;">道理</span>上说,癌症<span style="color: black;">能够</span>看作是一种信号<span style="color: black;">错乱</span><span style="color: black;">疾患</span>。然而,尽管<span style="color: black;">咱们</span><span style="color: black;">已然</span><span style="color: black;">晓得</span>过度激活或激活不足的信号通路<span style="color: black;">拥有</span>致癌<span style="color: black;">功效</span>,其内在确切的机制仍然<span style="color: black;">非常</span><span style="color: black;">奥秘</span>。”<span style="color: black;">实质</span>上,针对细胞<span style="color: black;">怎样</span><span style="color: black;">按照</span>它们感知到的信息做出决策, Vladimir Katanaev认为<span style="color: black;">日前</span>还<span style="color: black;">没</span>法用生物学手段解释。</p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;"><img src="//q2.itc.cn/images01/20240516/28ea22351d02455383f093dcf54c91e0.jpeg" style="width: 50%; margin-bottom: 20px;"></p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;">信息论是以概率论为<span style="color: black;">基本</span>的一门理论。它的<span style="color: black;">重点</span>概念<span style="color: black;">叫作</span>为‘熵’,旨在<span style="color: black;">测绘</span>随机变量的不确定性。 “例如,<span style="color: black;">倘若</span><span style="color: black;">咱们</span>抛硬币,硬币可能会随机落在正面或反面,<span style="color: black;">因此呢</span>结果是不确定的。<span style="color: black;">此刻</span>想象一个硬币,它<span style="color: black;">拥有</span>两个相同的面,<span style="color: black;">那样</span>抛掷的结果<span style="color: black;">必定</span>是确定的,此时熵为零。<span style="color: black;">因此呢</span>,熵<span style="color: black;">能够</span>用于<span style="color: black;">评定</span>随机通信的不确定性的程度。当应用于信号传递<span style="color: black;">行业</span>时,熵<span style="color: black;">暗示</span>接收方<span style="color: black;">知道</span>确定上游传输内容所必需的信息量。”</p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;">将信息理论应用于细胞信号传递,<span style="color: black;">能够</span><span style="color: black;">科研</span>细胞<span style="color: black;">怎样</span>处理其从环境中接收的信息。当细胞从其环境接收刺激(信息)时,细胞<span style="color: black;">能够</span>处理<span style="color: black;">那些</span>信息集中而不会出错?<span style="color: black;">晓得</span>了细胞的反应后,<span style="color: black;">咱们</span><span style="color: black;">能够</span>区分不同的刺激来<span style="color: black;">评定</span>哪个刺激触发了这种特定的反应吗?事实上,这些问题在癌症领域至关<span style="color: black;">要紧</span>。<span style="color: black;">由于</span>癌细胞可能<span style="color: black;">由于</span><span style="color: black;">没</span>法处理来自环境以及健康细胞的信息,并且在不<span style="color: black;">无</span>收到合适信息时<span style="color: black;">起始</span>增殖和分裂。</p>
<p style="font-size: 16px; color: black; line-height: 40px; text-align: left; margin-bottom: 15px;">如今,<span style="color: black;">科研</span>人员将<span style="color: black;">经过</span><span style="color: black;">科研</span>乳腺癌和肺癌细胞<span style="color: black;">怎样</span>处理其<span style="color: black;">周边</span>环境的信息来测试其<span style="color: black;">办法</span>的有效性。<span style="color: black;">实质</span>上,<span style="color: black;">日前</span>的治疗<span style="color: black;">一般</span>旨在消除癌细胞中某些信号传导途径,这种<span style="color: black;">办法</span><span style="color: black;">常常</span><span style="color: black;">伴同</span><span style="color: black;">必定</span>的副<span style="color: black;">功效</span>。Vladimir Katanaev<span style="color: black;">暗示</span>:“<span style="color: black;">咱们</span>提出的新<span style="color: black;">办法</span>并非旨在关闭信号通路,而是旨在恢复其正常活动。<span style="color: black;">经过</span>将纯数学概念应用于生物学,<span style="color: black;">咱们</span><span style="color: black;">期盼</span>识别出<span style="color: black;">必须</span>纠正的信息传输故障。”<a style="color: black;"><span style="color: black;">返回<span style="color: black;">外链论坛:http://www.fok120.com/</span>,查看<span style="color: black;">更加多</span></span></a></p>
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