<?xml version="1.0" encoding="UTF-8"?><!DOCTYPE article  PUBLIC "-//NLM//DTD Journal Publishing DTD v3.0 20080202//EN" "http://dtd.nlm.nih.gov/publishing/3.0/journalpublishing3.dtd"><article xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink" dtd-version="3.0" xml:lang="en" article-type="research article"><front><journal-meta><journal-id journal-id-type="publisher-id">OJGen</journal-id><journal-title-group><journal-title>Open Journal of Genetics</journal-title></journal-title-group><issn pub-type="epub">2162-4453</issn><publisher><publisher-name>Scientific Research Publishing</publisher-name></publisher></journal-meta><article-meta><article-id pub-id-type="doi">10.4236/ojgen.2014.46041</article-id><article-id pub-id-type="publisher-id">OJGen-52640</article-id><article-categories><subj-group subj-group-type="heading"><subject>Articles</subject></subj-group><subj-group subj-group-type="Discipline-v2"><subject>Medicine&amp;Healthcare</subject><subject> Biomedical&amp;Life Sciences</subject></subj-group></article-categories><title-group><article-title>
 
 
  Application of the Zhe Yin’s Gene Inherits Law
 
</article-title></title-group><contrib-group><contrib contrib-type="author" xlink:type="simple"><name name-style="western"><surname>he</surname><given-names>Yin</given-names></name><xref ref-type="aff" rid="aff1"><sup>1</sup></xref><xref ref-type="corresp" rid="cor1"><sup>*</sup></xref></contrib><contrib contrib-type="author" xlink:type="simple"><name name-style="western"><surname>Yunfei</surname><given-names>Guo</given-names></name><xref ref-type="aff" rid="aff2"><sup>2</sup></xref></contrib></contrib-group><aff id="aff2"><addr-line>Mathematics Department, Yanbian University, Yanji, China</addr-line></aff><aff id="aff1"><addr-line>Department of Information Management, Peking University, Beijing, China</addr-line></aff><author-notes><corresp id="cor1">* E-mail:<email>yinzhe@ybu.edu.cn(HY)</email>;</corresp></author-notes><pub-date pub-type="epub"><day>29</day><month>10</month><year>2014</year></pub-date><volume>04</volume><issue>06</issue><fpage>434</fpage><lpage>438</lpage><history><date date-type="received"><day>16</day>	<month>November</month>	<year>2014</year></date><date date-type="rev-recd"><day>5</day>	<month>December</month>	<year>2014</year>	</date><date date-type="accepted"><day>18</day>	<month>December</month>	<year>2014</year></date></history><permissions><copyright-statement>&#169; Copyright  2014 by authors and Scientific Research Publishing Inc. </copyright-statement><copyright-year>2014</copyright-year><license><license-p>This work is licensed under the Creative Commons Attribution International License (CC BY). http://creativecommons.org/licenses/by/4.0/</license-p></license></permissions><abstract><p>
 
 
  Several results are provided using gene inherits law in another article [1], making use of the theory of algebra in mathematics, according to which we derive, which will give some reference value to genetics.
 
</p></abstract><kwd-group><kwd>Inherits Law</kwd><kwd> Memory Inheritance</kwd><kwd> Memory Copy</kwd></kwd-group></article-meta></front><body><sec id="s1"><title>1. Introduction</title><p>Right now, many laws in genetics can be derived from the statistical law of genetic results. There is rather little research on principle. Can a reasonable estimate of the genetic results be presented from the perspective of principle? The answer is yes. Zhe Yin’s gene inherits law in reference [<xref ref-type="bibr" rid="scirp.52640-ref1">1</xref>] will be introduced first.</p></sec><sec id="s2"><title>2. Two Lemmas</title><p>Genetic behavior is divided into dominant inheritance and recessive inheritance. Assume that <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x5.png" xlink:type="simple"/></inline-formula> represents for dominant inheritance factor, and <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x6.png" xlink:type="simple"/></inline-formula> represents for recessive inheritance factor; there are two cases among inheritance factors, that is, dependent and independent; independent refers to there is cross effect between <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x7.png" xlink:type="simple"/></inline-formula> and<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x8.png" xlink:type="simple"/></inline-formula>, that is, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x9.png" xlink:type="simple"/></inline-formula>is also one inheritance result.</p><p>The possible results may be <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x10.png" xlink:type="simple"/></inline-formula> or <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x11.png" xlink:type="simple"/></inline-formula> when inheritance factors of male parent and female parent are independent.</p><p>The possible results may be<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x12.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x13.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x14.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x15.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x16.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x17.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x18.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x19.png" xlink:type="simple"/></inline-formula>when in- heritance factors of male parent and female parent are dependent.</p><p>Binomial equation formula:</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x20.png" xlink:type="simple"/></inline-formula>,</p><p>where</p><disp-formula id="scirp.52640-formula490"><graphic  xlink:href="http://html.scirp.org/file/3-1370217x21.png"  xlink:type="simple"/></disp-formula><p>Coefficients of the odd and even items in the expansion are equal.</p><p>Expansion <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x22.png" xlink:type="simple"/></inline-formula> is just all of the possible results of the <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x22.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x23.png" xlink:type="simple"/></inline-formula>th generation.</p><p>Lemma 1. When male parent and female meet dominant inheritance, inheritance factors fit such addition principle 1:</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x24.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x25.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x26.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x27.png" xlink:type="simple"/></inline-formula>.</p><p>Lemma 2. When male parent and female meet recessive inheritance, inheritance factors fit such addition principle 2:</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x28.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x29.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x30.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x31.png" xlink:type="simple"/></inline-formula>.</p></sec><sec id="s3"><title>3. Zhe Yin’s Gene Inherits Law</title><p>Zhe Yin’s gene inherits law:</p><p>1) All of the possible inheritance results of the <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x32.png" xlink:type="simple"/></inline-formula>th generation fit such expansion:</p><disp-formula id="scirp.52640-formula491"><graphic  xlink:href="http://html.scirp.org/file/3-1370217x33.png"  xlink:type="simple"/></disp-formula><p>where</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x34.png" xlink:type="simple"/></inline-formula>;</p><p>2) Inheritance factors meet distributive law (separate regularity);</p><p>3) Inheritance factors meet associative law (law of independent assortment);</p><p>4) Dominant inheritance meets addition principle 1;</p><p>5) Recessive inheritance meets addition principle 2;</p><p>6) When <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x35.png" xlink:type="simple"/></inline-formula> and <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x35.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x36.png" xlink:type="simple"/></inline-formula> are independent, possible results are <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x35.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x36.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x37.png" xlink:type="simple"/></inline-formula> or<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x35.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x36.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x37.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x38.png" xlink:type="simple"/></inline-formula>;</p><p>7) When <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula> and <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula> are dependent, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x41.png" xlink:type="simple"/></inline-formula>will be regarded as inheritance factor which also have dominant inheritance <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x41.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x42.png" xlink:type="simple"/></inline-formula> and recessive inheritance <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x41.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x42.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x43.png" xlink:type="simple"/></inline-formula> (linkage inheritance), and possible results are:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x41.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x42.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x43.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x44.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x39.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x40.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x41.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x42.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x43.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x44.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x45.png" xlink:type="simple"/></inline-formula>,</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x47.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x47.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x48.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x47.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x48.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x49.png" xlink:type="simple"/></inline-formula>, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x47.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x48.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x49.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x50.png" xlink:type="simple"/></inline-formula>,<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x46.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x47.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x48.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x49.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x50.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x51.png" xlink:type="simple"/></inline-formula>.</p><p>Note: when<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x52.png" xlink:type="simple"/></inline-formula>, this inheritance law is just Mendel’s law.</p></sec><sec id="s4"><title>4. Application of Zhe Yin’s Gene Inherits Law</title><sec id="s4_1"><title>4.1. Application 1: Subtraction Principle of Genetic (Inference of Zhe Yin’s Gene Inherits Law)</title><p>According to the theory of algebra in mathematics. (According to the theory of algebra, addition and sutration in Lemma 1 and Lemma 2 are equivalent in Zhe Yin’s gene inherits law) if addition principle in Lemma 1 and Lemma 2 is right, subtraction principle in Lemma 1 and Lemma 2 will be also met. That is,</p><p>Lemma 1. When male parent and female meet dominant inheritance, inheritance factors fit suchsubtraction principle 1:</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x53.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x54.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x55.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x56.png" xlink:type="simple"/></inline-formula>.</p><p>Lemma 2. When male parent and female meet dominant inheritance, inheritance factors fit such subtraction principle 2:</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x57.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x58.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x59.png" xlink:type="simple"/></inline-formula>;</p><p><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x60.png" xlink:type="simple"/></inline-formula>.</p><p>Addition and subtraction in math and algebra are equivalent, but its significance in biology is very large. Addition represents the result of the integration, subtraction represents differences or changes in content. This is mainly reflected that the living things gain and memory only changed information to outside information, but gain and memory same information to non-continuous ones, all the way to genetic. Not only humans, animal information of vision, taste, smell, and so on have also taken changing nature of memory storage.</p><p>Biological evolution is gene mutation with the environmental impact so dominant inheritance refers to biological evolution. Mutation evolutionary characteristics changed at three times speed compared to the previous original features (original features before the evolutionary genetic increment = 0, genetic increment which has the gene mutation evolutionary characteristics = three times); characteristic of recessive inheritance refers to keep 50% evolution before, keep 50% after mutation evolutionary characteristics (genetic process was changed on the second process, preserving 50% in fact equals no change). It is worth mentioning that with the impact of environment, dominant and recessive hereditary interchangeable. For a single organism, overt or tissue tested positive for the virus were negative, occult viral or cellular organization. Normal number of latent virus in human reproduction cells without incremental, but the volume increased 1 time (according to coefficient ratio in Zhe Yin’s gene inherits law).</p></sec><sec id="s4_2"><title>4.2. Application 2: The Dynamics and Monotonic of Genetic</title><p>Genetic process is a dynamic process. According to Zhe Yin’s gene inherits law, which is that continuous evolution process of bio at three times speed, is also that living beings remain 100% trait genes in the process. Dominant hereditary represents of biological evolution (environmental influences), recessive hereditary represents of biological organisms maintaining the original characteristics. With the impact of environment, dominant and recessive hereditary interchange each other. Genetic variation is equivalent to cell variation. If different paternity rate = Y, identification of children = N, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula>, when <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x62.png" xlink:type="simple"/></inline-formula> becomes large, <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x62.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x63.png" xlink:type="simple"/></inline-formula>increases monotonically. When the value of <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x62.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x63.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x64.png" xlink:type="simple"/></inline-formula> is equal, parentage living in different environments with different rate of <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x62.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x63.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x64.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x65.png" xlink:type="simple"/></inline-formula>-value is greater than the same conditions paternity rates of different <inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x61.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x62.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x63.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x64.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x65.png" xlink:type="simple"/></inline-formula><inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x66.png" xlink:type="simple"/></inline-formula> values.</p><p>For example, cancer cells is the biological evolution of dominant process, AIDS was bio-conservative (degradation) of recessive processes. Low immunity sharply conservative phenomenon of biological degradation phenomena, is very likely to be the next of kin at the intersection of product. It is worth mentioning that without distinction as to race, looks like many of them are mentally handicapped groups striking similarities have a relationship with inbreeding. Inbreeding is the most effective way of returning to the ancient.</p></sec><sec id="s4_3"><title>4.3. Application 3: Twice Property of Genetics</title><p>Zhe Yin’s gene inherits law is the one about individual gene, complete thought is included of the collective of gene, which is inheritance that is composed of gene strand by media (such as memory piece). Union of the male germ cell and female germ cell nuclei of genetic inheritance can be identified for the first inheritance, female genetic memory (memory copy of the parent to the young) can be identified as the second genetic or epigenetic inheritance. The first inheritance contains the basic genetic information (part of evolutionary information is not included), the second inheritance contains part of evolutionary information, through the copying and passing brain’s memory information.</p><p>Human or animal instinct actually does not exist, is copying and inheritance from a generation ago, previous generations of ancestors (hereditary for the second time). Human’s dreaming phenomenon are previous generations of ancestral memory contents and mix back to the recent memory. After copying the creature’s young brain gene mutations identified as genetic variability for the second time.</p></sec><sec id="s4_4"><title>4.4. Application 4: Rules of Blood Type Inheritance</title><p>A-type and B-type blood are dominant inheritance, AB-type is a double dominant genetic, and O-type is recessive. According to Zhe Yin’s gene inherits law, we have:</p><p>Blood type of parents:</p><p>A and A:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x67.png" xlink:type="simple"/></inline-formula>;</p><p>A and B:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x68.png" xlink:type="simple"/></inline-formula>;</p><p>A and O:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x69.png" xlink:type="simple"/></inline-formula>;</p><p>A and AB:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x70.png" xlink:type="simple"/></inline-formula>;</p><p>B and B:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x71.png" xlink:type="simple"/></inline-formula>;</p><p>B and AB:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x72.png" xlink:type="simple"/></inline-formula>;</p><p>O and O:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x73.png" xlink:type="simple"/></inline-formula>;</p><p>O and AB:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x74.png" xlink:type="simple"/></inline-formula>;</p><p>B and O:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x75.png" xlink:type="simple"/></inline-formula>;</p><p>AB and AB:<inline-formula><inline-graphic xlink:href="http://html.scirp.org/file/3-1370217x76.png" xlink:type="simple"/></inline-formula>. See blood type inheritance table for details [<xref ref-type="bibr" rid="scirp.52640-ref2">2</xref>] (<xref ref-type="table" rid="table1">Table 1</xref>).</p></sec><sec id="s4_5"><title>4.5. Application 5: Atavism</title><p>When the hereditary and sex-linked recessive traits are met, according to Zhe Yin’s gene inherits law, according to corollary 5 and 6 in reference [<xref ref-type="bibr" rid="scirp.52640-ref1">1</xref>] , atavism will be took place. That is, even-numbered generation inherits but odd-numbered one doesn’t inherit, such as hemophilia, red-green colorblind, pseudohypertrophic muscular dystrophy and-6-glucose dehydrogenate deficiency, and so on.</p><table-wrap id="table1" ><label><xref ref-type="table" rid="table1">Table 1</xref></label><caption><title> Blood type inheritance table</title></caption><table><tbody><thead><tr><th align="center" valign="middle" >Blood type of parents</th><th align="center" valign="middle" >Blood type of children</th><th align="center" valign="middle" >Ratio</th></tr></thead><tr><td align="center" valign="middle" >A and A</td><td align="center" valign="middle" >A, O</td><td align="center" valign="middle" >A:O = 3:1</td></tr><tr><td align="center" valign="middle" >A and B</td><td align="center" valign="middle" >AB, A, B, O</td><td align="center" valign="middle" >AB:A:B:O = 1:1:1:1</td></tr><tr><td align="center" valign="middle" >A and O</td><td align="center" valign="middle" >A, O</td><td align="center" valign="middle" >A:O = 1:1</td></tr><tr><td align="center" valign="middle" >A and AB</td><td align="center" valign="middle" >A, AB, B</td><td align="center" valign="middle" >A:AB:B = 2:1:1</td></tr><tr><td align="center" valign="middle" >B and B</td><td align="center" valign="middle" >B, O</td><td align="center" valign="middle" >B:O = 3:1</td></tr><tr><td align="center" valign="middle" >B and AB</td><td align="center" valign="middle" >AB, B, A</td><td align="center" valign="middle" >AB:B:A = 1:2:1</td></tr><tr><td align="center" valign="middle" >O and O</td><td align="center" valign="middle" >O</td><td align="center" valign="middle" >O = 1</td></tr><tr><td align="center" valign="middle" >O and AB</td><td align="center" valign="middle" >A, B</td><td align="center" valign="middle" >A:B = 1:1</td></tr><tr><td align="center" valign="middle" >B and O</td><td align="center" valign="middle" >B, O</td><td align="center" valign="middle" >B:O = 1:1</td></tr><tr><td align="center" valign="middle" >AB and AB</td><td align="center" valign="middle" >A, AB, B</td><td align="center" valign="middle" >A:AB:B = 1:2:1</td></tr></tbody></table></table-wrap><p>Blood group inheritance and ratio with a simple calculation in a similar way. AB type blood and A type or B type blood occur gene mutations linked, which can create special blood type.</p></sec></sec><sec id="s5"><title>5. Conclusion</title><p>Based on the Zhe Yin’s gene inherits law using the principles of algebra, feasible ideas about biology have been clearly provided. According to Zhe Yin’s gene inherits law, inheritance and evolutionary process has been quantized, which will play a references role in future.</p></sec></body><back><ref-list><title>References</title><ref id="scirp.52640-ref1"><label>1</label><mixed-citation publication-type="other" xlink:type="simple">Yin, Z. (2012) The Law of Genetic Inheritance. Open Journal of Genetics, 2, 47-50.http://dx.doi.org/10.4236/ojgen.2012.21005</mixed-citation></ref><ref id="scirp.52640-ref2"><label>2</label><mixed-citation publication-type="other" xlink:type="simple">Yin, Z. and Guo, Y.F. (2012) Principle of Blood Group Inheritance and Calculation of Its Ratio. Pure and Applied Biology, 1, 16-17.</mixed-citation></ref></ref-list></back></article>