<?xml version="1.0"?>
<rss version="2.0">
   <channel>
      <title>Chapter 5 by sangeetha vel</title>
      <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8</link>
      <description></description>
      <language>en-us</language>
      <pubDate>2021-07-12 05:15:54 UTC</pubDate>
      <lastBuildDate>2021-07-12 15:10:25 UTC</lastBuildDate>
      <webMaster>hello@padlet.com</webMaster>
      <image>
         <url></url>
      </image>
      <item>
         <title>Aditi S</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645476833</link>
         <description><![CDATA[<div>genetics<br>heredity<br>variation<br>mendels laws of inheritance- law of dominance, law of segregation<br>contrasting characters 7 - seed colour, seed shape, flower colour, pod shape, pod colour, height and flower position<br>monohybrid cross- geno - 1:2:1 and pheno- 3:1<br>dihybrid cross &nbsp;<br>phenotype<br>genotype<br>heterozygous<br>homozygous<br>factor/gene<br>locus<br>allele<br>incomplete dominance<br>co dominance<br>pleotropic genes<br>autosomes<br>sex determination<br>xx-xo<br>xx-xy<br>zw-zz<br><br>linkage<br>crossing over<br>mutation<br>somatic variation<br>germinal variation<br>chromosomal aberrations<br><br>euploid:<br>monoploid, polyploidy,&nbsp;<br><br>aneuploidy:<br>hyperploidy, trisomic,tetrasomy, hypoploidy,monosomy,<br><br>purine- adenine and guanine<br>pyramidine- cytosine and thymine<br>transition- purine replaced by purine Vice versa<br>transvertion: purine replaced by pyramidine vice versa<br>substitution mutation<br>frameshift mutation<br>pedigree<br>disorders:<br>autosomal: sickle-cell, phenylketonuria, thalassaemia,&nbsp;<br>sex chromosome linked disorders: colour blindness, Down syndrome, klinfelters syndrome, turnsers syndrome.<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:30:36 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645476833</guid>
      </item>
      <item>
         <title>Nithika </title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645477146</link>
         <description><![CDATA[<div>Genetics - study of heredity and variation<br>Heredity - transmission of characters&nbsp;<br>from parents to offspring.<br>Variation - difference between the offspring.<br>Hereditary variation - inheritable, genetical<br>Environmental variation - acquired , not inheritable .<br>Gregor&nbsp; Johann Mendel - Father of genetics , Austrian monk,<br>Mendel 's work&nbsp; rediscovered by-Hugo de vries ,Carl correns, Erich Tschermak<br>Gene-&nbsp; functional unit of heredity ,&nbsp; responsible for expression of characters&nbsp;<br>Locus - position of the gene on the chromosome.<br>Allele - alternative form of gene, for contrasting characters present on the same locus of a&nbsp; chromosome .<br>Phenotype - appearance of the organism&nbsp; influenced by the gene .<br>Genotype -genetic constitution responsible for the phenotype&nbsp;<br>Homozygous -Identical gene in an allelic pair for&nbsp; a character .<br>Heterozygous -un -identical gene in a allelic pair .<br>Dominant gene - expressed&nbsp; character in a gene .<br>Recessive - gene that fails to express its character&nbsp;<br>Hybrid&nbsp;<br>Mendel selected pea plant :<br>-easy to cultivate&nbsp;<br>- pure varieties available&nbsp;<br>-life cycle of plants only few months&nbsp;<br>- flowers bisexual and&nbsp; self pollinated&nbsp;<br>Reasons for success<br>1st law of mendel -<br>In a hybrid union&nbsp; two characters&nbsp; are brought together and in heterozygous condition one pair dominates while the other remains recessive&nbsp;<br>2nd law&nbsp; of Mendel -<br>Pair of factors brought together in a hybrid&nbsp; segregate during formation of gametes .<br>&nbsp; Monohybrid cross - cross between parents differing in one pair of character , inheritance of one gene.<br>Test cross - cross between hybrid and its homozygous recessive parent&nbsp;<br>used to identify the genotype of the hybrid&nbsp;<br>Incomplete dominance - blending of characters from both the parents forming new combination or intermediate character.<br>Pleiotropy- effect<br><br><br><br><br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:30:46 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645477146</guid>
      </item>
      <item>
         <title>Yamni</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645477935</link>
         <description><![CDATA[<div>- Mendelian Genetics <br><br>- Genetics-Branch of life science dealing with the study of heredity and variation<br><br>-Heredity-transmission of characters from parents to offspring<br><br>-Variation-difference among offspring of same parents<br><br>-Hereditary variation-genetical ,inheritable<br><br>-Environmental variation-Acquired ,not inheritable<br><br>-Gregor Johann Mendel- Austrian monk, Father of genetics, Published his work in "Translation of the characters<br><br>Three scientists rediscovered his work:<br>-Hugo de Vries<br>-Carl Correns<br>-Erich Tschermak<br><br>Mendel used pea plants in his experiment.<br><strong>Monohybrid cross ratio in F2 generation-</strong><br>Genotypic ration-1:2:1,TT:Tt:tt<br>Phenotypic ration-3:1,Tall:Dwarf<br><br>Factor or gene:<br>Functional unit of heredity responsible for the expression of character in the progeny<br><br>Locus:<br>Position of a gene on the chromosome<br><br>Allele:<br>The alternative form of gene for a contrasting character.<br><br>Phenotype:<br>External appearance of an organism due to the influence of genes and the environment.<br><br>Genotype:<br>The genetic make up of an organism responsible for the phenotype.<br><br>Phenotypic ratio<br>Genotypic Ratio<br><br>Homozygous:<br>Individual having identical genes in an allelic pair for character<br><br>Heterozygous:<br>Having unidentical genes in an allelic pair.<br><br>Dominant gene:<br>Gene that expresses its character in heterozygous condition<br><br>Recessive gene:<br>Gene that does not express its character in heterozygous condition<br><br>Hybrid<br>Progeny after crossing over 2 parents of different characters<br><br>Back cross<br>Cross between F 1 hybrid and one of its parents<br><br>Test cross<br>Cross between hybrid and its homozygous recessive parent. Used to identify genotype of hybrid.<br><br>Homologous chromosome:<br>Pair of chromosomes having same gene sequence each derived from one parent<br><br>Autosomes<br>Body characters<br><br>Allosomes<br>Sex chromosomes<br><br>Why did Mendel select the pea plant?<br><br>Reasons for his success<br><br>1st law of Mendel<br>When 2 factors are brought together in a hybrid union ,one member of a pair dominates over the other in a heterozygous condition, the factor expressed is dominant while the other is recessive.&nbsp;<br><br>2nd law<br>When a pair of factors for a character are brought together in a hybrid ,they segregate during the formation of gametes.<br><br>Incomplete dominance<br>Inheritance in which allele for a specific character is not completely dominant over other allele.<br><br><br><br><br><br>&nbsp;</div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:31:07 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645477935</guid>
      </item>
      <item>
         <title>Sharvessh</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645479843</link>
         <description><![CDATA[<div>Heredity/ Inheritance&nbsp;<br>Genetics - study of heredity/ inh<br>Father of genetics - G. Mendel<br>Mendel - worked on pea plant<br>Re discovery - Carl Correns, Hugo DeVries, Erich Von Tschermak&nbsp;<br>7 contrasting characters of pea plant<br>Monohybrid cross (G - 1:2:1, P - 3:1)<br>Law of Dominance&nbsp;<br>Law of segregation(purity of gametes)<br>Basic terms like Gene, Locus, Allele, Phenotype, Genotype, Phenotypic ratio, Genotypic ratio, Homozygous, Heterozygous, Homologous chromosome, Dominant, Recessive, Hybrid, Back cross, Test cross( Mono-1:1 , Di-1:1:1:1<br>Reasons for selection of pea plant<br>Reasons for success&nbsp;<br>Dihybrid cross (G - (1:2:1:2:4:2:1:2:1, P - 9:3:3:1)<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:32:10 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645479843</guid>
      </item>
      <item>
         <title>Sruthi</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645480181</link>
         <description><![CDATA[<div>Mendelian genetics<br><br><strong>Genetics</strong>:<br>-branch of life science that deals with the study of heredity and variation<br><br><strong>Heredity:</strong><br>transmission of characters from the parents to the offspring<br><br><strong>Variation:</strong><br>difference in characters among the offspring and the parent<br><br><strong>Factor/Gene<br></strong>functional unit of heredity responsible for expression of character in the progeny<br><br><strong>Locus</strong><br>position of the gene on the chromosome<br><br><strong>Allele</strong><br>alternative form of gene, for a contrasting character present on the same locus of a specific chromosome<br><br><strong>Genotype</strong><br>genetic constitution of an individual<br><br><strong>Phenotype</strong><br>characters expressed in an individual due to the genetic combination<br><br><strong>Homozygous</strong><br>condition in which an individual has identical genes in an allelic pair for a specific character<br><br><strong>Heterozygous</strong><br>condition in which an individual has unidentical (contrasting) characters<br><br><strong>Autosomes</strong><br>chromosomes that determine the normal body characters<br><br><strong>Allosomes</strong><br>chromosomes that determine the sex of the individual<br><br><strong>Mendelian Laws:</strong><br><strong>First law:</strong><br>-also called the <strong>law of dominance</strong><br>-for monohybrid gametes<br>-"<strong><em>When two factors are brought together in a hybrid union, one member of a pair is expressed (dominant character) while the other is suppressed (recessive)</em></strong>"<br><br><strong>Second law:</strong><br>-<strong>Law of segregation </strong>/<strong> Law of purity of gametes</strong><br>-"<strong><em>When a pair of factors for a character are brought together in a hybrid, they segregate during the formation of gametes</em></strong>"<br><br><strong>Third Law:</strong><br>-<strong>Law of independent assortment</strong><br>-"<strong><em>Factors for different pair of contrasting characters in a hybrid cross are assorted independently during the formation of gametes</em></strong>"<br><br><strong>Monohybrid cross</strong>:<br>-cross between two organisms having alleles of the same character<br><br><strong>Back cross</strong>:<br>-cross between F1 hybrid and one of its parents<br><br><strong>Test cross</strong>:<br>-cross between hybrid and its homozygous recessive parent<br>-used to identify the genotype of the hybrid<br><br><strong>Incomplete/ partial dominance</strong>:<br>-the hybrid does not express wither of the parents' characters and instead expresses a new one (usually a combination of both the characters of the parents)<br><br><strong>Pleiotropy</strong>:<br>-phenomenon in which one gene influences many characters<br>-ex: starch synthesis in pea seed, phenylketonuria<br><br><strong>Co-dominance</strong>:<br>-both alleles are dominant and are expressed<br>-ex: blood group in humans<br><br><strong>Polygenic inheritance</strong>:<br>-condition in which many genes influence one specific character<br>-ex: skin colour in humans<br><br><strong>Pedigree</strong>:<br>visual representation of the genetic inheritance of one family<br><br><strong>Sex determination:</strong><br><br><strong>XX_XO </strong>type:<br>-ex: grasshopper<br>-the females have24 chromosomes while the males have only 23<br>-females - (22 + XX)<br>-males - (22 + XO)<br><br><strong>XX-XY </strong>type:<br>-ex: drosophila and mammals<br>-females and males have the same number of chromosomes<br>-females are heterozygous (AA + XX)<br>-males are homozygous (AA + XY)<br>-exception - birds (males are homozygous and females are heterozygous)<br><br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:32:23 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645480181</guid>
      </item>
      <item>
         <title>Samiksha</title>
         <author>ssamiksha2004</author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645480566</link>
         <description><![CDATA[<div>Mendelian genetics<br>Hereditary variations - genetical and inheritable<br>Environmental variations - acquired and non - inheritable<br>Gene - functional unit of heredity responsible for the extension of character in progeny<br>Locus - position of the gene of chromosomes<br>Allele - alternative form of a gene for a contrasting character present on identical locus of homologous chromosomes<br>Phenotype - External appearance of an organism due to the influence of genes and environmental factors<br>Genotype - genetic constitution of an individual responsible for phenotype<br>Homozygous - individual having identical genes in an allelic pair for a character<br>Homozygous chromosome - same gene sequences, each derived from one parent<br>Hybrid - progeny obtained by crossing 2 parents that differ in characters<br>Heterozygous - individual having different genes in an allelic pair for a character<br>Test cross - cross b/w hybrid and its homozygous recessive parent<br>Back cross - cross b/w hybrid and one of its parent<br>Mendel's first law - "when two factors are bought together in a hybrid union, one member of pair dominates over the other in heterozygous condition, the factor expressed is dominant while other is recessive"<br>Mendel's second law - "when a pair of factors for a character brought together in a hybrid, the segregate during the formation of gametes"<br>Mendel's third law - "factors for diff. pairs of contrasting characters in a hybrid assorted independently during gamete formation"<br>Monohybrid cross- cross b/w 2 parents differing in one pair of contrasting character&nbsp;<br>Co-dominance - both the alleles for a character are dominant and express its full character<br>Pleiotropy - genetic effect of a single gene on multiple phenotypic traits<br>Dihybrid cross - cross b/w 2 parents, which differs in 2 pairs of contrasting character<br>Autosomal dominant inheritance -&nbsp;<br>trait should not skip generations<br>equal no.of males and females<br>an affected person mating with an unaffected person should produce 50% affected offspring<br>offspring will not be affected if heterozygous parent<br>Autosomal recessive inheritance - trait often skip generations<br>equal no.of males and females<br>both parents are affected, all children are affected<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:32:39 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645480566</guid>
      </item>
      <item>
         <title>Aditi Ram</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645483981</link>
         <description><![CDATA[<div>Mendelian genetics<br>Hereditary&nbsp;<br>monohybrid cause&nbsp;<br>Dihybrid cross<br>incomplete dominance&nbsp;<br>Co- dominance &nbsp;<br>Genotype and phenotype<br>Pleiotropic genes&nbsp;<br>Sex determination&nbsp;<br>Crossing over&nbsp;<br>Mutations:<br>-Chromosomal Aberrations<br>-Point mutations&nbsp;<br>Pedigree chart<br>Mendelian disorders:<br>Sickle cell anemia&nbsp;<br>Phenylketorunia&nbsp;<br>Thalassaemia&nbsp;<br>Haemophilia&nbsp;<br>Down's syndrome&nbsp;<br>Klinefelter's syndrome&nbsp;<br>Turner's syndrome </div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:34:40 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645483981</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645485886</link>
         <description><![CDATA[<div>Pranaiya&nbsp;</div>]]></description>
         <pubDate>2021-07-12 05:35:48 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645485886</guid>
      </item>
      <item>
         <title>Renita</title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645487249</link>
         <description><![CDATA[<div>genetics-deals with heredity and variations<br>variations - degree of difference<br>heredity-transmission of characters<br>Gregor Mendel - father of genetics<br>Mendel's laws - law of of dominance and law of segregation<br>Mendel -&nbsp; studied 14 traits in <em>Pisum sativum.<br></em>reasons for pea plant -&nbsp;<br>*distinctive traits<br>*self-pollination =&nbsp; pure breeding<br>*short life cycle<br>*easy artificial pollination=fertile hybrids<br>gene - unit of heredity responsible for expression of character<br>allele- alternative form of gene<br>homologous chromosomes-pair containing same gene sequence<br>genotype<br>phenotype<br>heterozygous gene-unidentical gene in an allelic pair (individual)<br>homozygous gene-identical gene in an allelic pair (individual)<br>dominant-gene expressed in heterozygous condition<br>recessive-gene suppressed in heterozygous condition<br>test cross - cross between hybrid and recessive parent&nbsp;<br>pleiotropy<br>polygenic inheritance<br>co-dominance-<br>incomplete dominance-<br>dihybrid cross-&nbsp;<br><br></div>]]></description>
         <enclosure url="" />
         <pubDate>2021-07-12 05:36:42 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1645487249</guid>
      </item>
      <item>
         <title></title>
         <author></author>
         <link>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1646054297</link>
         <description><![CDATA[]]></description>
         <enclosure url="https://padlet.com/sangeethavel36" />
         <pubDate>2021-07-12 15:10:25 UTC</pubDate>
         <guid>https://padlet.com/sangeethavel36/2hvclir540ogbtd8/wish/1646054297</guid>
      </item>
   </channel>
</rss>
