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Explanation of X-Linked inheritance

This document contains a series of slides explaining X-linked inheritance patterns. It begins with slides showing the human chromosomes and sex chromosomes. It then describes X-linked recessive inheritance when the mother is a carrier or the father has the condition. Next, it covers X-linked dominant inheritance when the mother has the condition. For X-linked dominant, affected sons may not survive and fewer sons than expected may be seen in families. The document aims to teach genetics through these inheritance pattern examples.

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Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Passing on genetic information from parents to children An explanation of X- linked inheritance
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre • Here are some PowerPoint teaching slides which demonstrate the transmission of an x-linked inherited condition from parent to child; please feel free to use these within your teaching • Some parts of the animations run automatically; others require a mouse click • Most slides have notes with further information
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Hundreds of genes are located on each chromosome (The dark bands on the chromosomes are due to a special staining technique and are not genes as these are too small to see) The 46 human chromosomes seen down the microscope
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs Sex chromosomes of a male
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs Sex chromosomes of a male female
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Position of particular gene
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked inheritance where the mother is a carrier for an X-linked recessive condition
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Altered gene Male with an X- linked recessive condition Altered geneUsual gene Female who is a carrier for an X-linked recessive condition
Parents Sperm/Eggs At conception X-linked recessive inheritance where the mother is a carrier Father Mother X Y XX Daughter Daughter Son Son
Parents Sperm/Eggs X-linked recessive inheritance where the mother is a carrier Father Mother X Y XX Female, does not have the condition, non-carrier Female, carrier for the condition Male, does not have the condition Male, has the condition
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked inheritance where the father has an X-linked recessive condition
Parents Father Mother X Y XX Daughter Daughter Son Son X-linked recessive inheritance where the father has an X-linked condition Sperm/Eggs At conception
Parents Father Mother X-linked recessive inheritance where the father has an X-linked condition Sperm/Eggs Female, carrier for the condition Male, does not have the condition
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked dominant inheritance Only a few disorders are known to be inherited in an X- linked dominant manner.
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked dominant inheritance where the mother has the condition
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Altered gene Male with an X- linked dominant condition Usual geneAltered gene Female who has an X-linked dominant condition
Parents At conception Father Mother X Y XX Daughter Daughter Son Son Has condition Unaffected Sperm/Eggs X-linked dominant inheritance where the mother has the condition
Parents At conception Father Mother X Y XX Daughter with condition Daughter without condition Son with condition Son without condition Has condition Unaffected Sperm/Eggs X-linked dominant inheritance where the mother has the X-linked condition
Parents Father Mother Daughter with condition Daughter without condition Son without condition Has condition Unaffected X-linked dominant inheritance where the mother has the X-linked condition Son with condition X-linked dominant conditions may be so severe that males with the condition do not survive
Parents Father Mother Daughter with condition Daughter without condition Son without condition Has condition Unaffected X-linked dominant inheritance where the mother has the X-linked condition So fewer males than expected may be seen in the children of a mother who has an X-linked dominant condition
Genetics and genomics for healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre This animation is part of a series describing modes of inheritance To access these and other resources for teaching and learning genetics, please visit: www.geneticseducation.nhs.uk

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In this document
Powered by AI

Overview of genetics education materials on X-linked inheritance and teaching resources.

Introduction to the 46 human chromosomes organized in 23 pairs and basics of their structure.

Explanation of X-linked recessive inheritance from carriers, illustrating genetic transmission patterns.

Insights into X-linked recessive inheritance when the father has the condition, detailing offspring possibilities.

Clarification of X-linked dominant inheritance with considerations of affected mothers and survival rates of offspring.

Invitation to access more resources on teaching genetics, focusing on inheritance modes.

Explanation of X-Linked inheritance

  • 1.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Passing on genetic information from parents to children An explanation of X- linked inheritance
  • 2.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre • Here are some PowerPoint teaching slides which demonstrate the transmission of an x-linked inherited condition from parent to child; please feel free to use these within your teaching • Some parts of the animations run automatically; others require a mouse click • Most slides have notes with further information
  • 3.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Hundreds of genes are located on each chromosome (The dark bands on the chromosomes are due to a special staining technique and are not genes as these are too small to see) The 46 human chromosomes seen down the microscope
  • 4.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs
  • 5.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs Sex chromosomes of a male
  • 6.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre The 46 human chromosomes arranged in their 23 pairs Sex chromosomes of a male female
  • 7.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Position of particular gene
  • 8.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked inheritance where the mother is a carrier for an X-linked recessive condition
  • 9.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Altered gene Male with an X- linked recessive condition Altered geneUsual gene Female who is a carrier for an X-linked recessive condition
  • 10.
    Parents Sperm/Eggs At conception X-linked recessiveinheritance where the mother is a carrier Father Mother X Y XX Daughter Daughter Son Son
  • 11.
    Parents Sperm/Eggs X-linked recessive inheritancewhere the mother is a carrier Father Mother X Y XX Female, does not have the condition, non-carrier Female, carrier for the condition Male, does not have the condition Male, has the condition
  • 12.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked inheritance where the father has an X-linked recessive condition
  • 13.
    Parents Father Mother X YXX Daughter Daughter Son Son X-linked recessive inheritance where the father has an X-linked condition Sperm/Eggs At conception
  • 14.
    Parents Father Mother X-linked recessiveinheritance where the father has an X-linked condition Sperm/Eggs Female, carrier for the condition Male, does not have the condition
  • 15.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked dominant inheritance Only a few disorders are known to be inherited in an X- linked dominant manner.
  • 16.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre X-linked dominant inheritance where the mother has the condition
  • 17.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre Males X chromosome Y chromosome Females X chromosome Altered gene Male with an X- linked dominant condition Usual geneAltered gene Female who has an X-linked dominant condition
  • 18.
    Parents At conception Father Mother XY XX Daughter Daughter Son Son Has condition Unaffected Sperm/Eggs X-linked dominant inheritance where the mother has the condition
  • 19.
    Parents At conception Father Mother XY XX Daughter with condition Daughter without condition Son with condition Son without condition Has condition Unaffected Sperm/Eggs X-linked dominant inheritance where the mother has the X-linked condition
  • 20.
    Parents Father Mother Daughter withcondition Daughter without condition Son without condition Has condition Unaffected X-linked dominant inheritance where the mother has the X-linked condition Son with condition X-linked dominant conditions may be so severe that males with the condition do not survive
  • 21.
    Parents Father Mother Daughter withcondition Daughter without condition Son without condition Has condition Unaffected X-linked dominant inheritance where the mother has the X-linked condition So fewer males than expected may be seen in the children of a mother who has an X-linked dominant condition
  • 22.
    Genetics and genomicsfor healthcare www.geneticseducation.nhs.uk © 2013 NHS National Genetics and Genomics Education Centre This animation is part of a series describing modes of inheritance To access these and other resources for teaching and learning genetics, please visit: www.geneticseducation.nhs.uk