Lefty (protein): Difference between revisions

Latest revision as of 11:16, 15 February 2025

Lefty (protein)[edit]

Diagram illustrating the role of Lefty in the Nodal signaling pathway.

Lefty is a protein that plays a crucial role in the Nodal signaling pathway, which is essential for embryonic development and the establishment of left-right asymmetry in vertebrates. Lefty proteins are members of the TGF-beta superfamily, which are involved in a wide range of cellular processes, including cell growth, differentiation, and apoptosis.

Structure[edit]

Lefty proteins are characterized by their unique structure, which includes a conserved cysteine knot motif typical of the TGF-beta superfamily. This structure allows Lefty to interact with other proteins in the Nodal signaling pathway, modulating their activity.

Function[edit]

Lefty acts as an antagonist in the Nodal signaling pathway. It binds to Nodal and its co-receptors, inhibiting their ability to activate downstream signaling. This inhibition is crucial for the proper establishment of left-right asymmetry during embryonic development. Without the regulatory action of Lefty, the Nodal signaling pathway could lead to abnormal development.

Role in Development[edit]

During gastrulation, Lefty is expressed in specific regions of the developing embryo, where it helps to establish the left-right axis. It is particularly important in the development of the heart, lungs, and other asymmetrically positioned organs. The precise regulation of Lefty expression ensures that these organs develop on the correct side of the body.

Clinical Significance[edit]

Abnormalities in Lefty expression or function can lead to congenital disorders such as situs inversus, where the positions of the internal organs are mirrored from their normal positions. Understanding the role of Lefty in these processes is important for developing potential therapeutic interventions.

Related pages[edit]

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-'''Lefty (protein)'''
+== Lefty (protein) ==
-The '''Lefty''' protein, also known as Left-right determination factor, is a member of the [[Transforming growth factor beta|TGF-beta]] superfamily of proteins. It plays a crucial role in the establishment of [[Left-right asymmetry]] in developing embryos. The protein is encoded by the LEFTY1 and LEFTY2 genes in humans.
+[[File:Leftynodaldiagram.jpg|thumb|right|Diagram illustrating the role of Lefty in the Nodal signaling pathway.]]
-== Function ==
+'''Lefty''' is a protein that plays a crucial role in the [[Nodal signaling pathway]], which is essential for [[embryonic development]] and the establishment of [[left-right asymmetry]] in vertebrates. Lefty proteins are members of the [[TGF-beta superfamily]], which are involved in a wide range of cellular processes, including [[cell growth]], [[differentiation]], and [[apoptosis]].
+== Structure ==
-The Lefty protein is involved in the regulation of [[Cell differentiation|cell differentiation]] and proliferation. It is also essential for the development of [[Organ (anatomy)|organ]] systems and the establishment of left-right asymmetry during [[Embryogenesis|embryogenesis]]. The protein inhibits the activity of [[Nodal (protein)|Nodal]], another member of the TGF-beta superfamily, to control the left-right asymmetry.
+Lefty proteins are characterized by their unique structure, which includes a conserved [[cysteine knot]] motif typical of the TGF-beta superfamily. This structure allows Lefty to interact with other proteins in the Nodal signaling pathway, modulating their activity.
-== Genes ==
+== Function ==
-In humans, the Lefty protein is encoded by two genes: LEFTY1 and LEFTY2. These genes are located on [[Chromosome 1 (human)|chromosome 1]] and [[Chromosome 2 (human)|chromosome 2]], respectively. Mutations in these genes can lead to disorders of left-right asymmetry, such as [[Situs inversus]] and [[Heterotaxy]].
+Lefty acts as an antagonist in the Nodal signaling pathway. It binds to [[Nodal]] and its co-receptors, inhibiting their ability to activate downstream signaling. This inhibition is crucial for the proper establishment of left-right asymmetry during embryonic development. Without the regulatory action of Lefty, the Nodal signaling pathway could lead to abnormal development.
-== Clinical significance ==
+== Role in Development ==
-Abnormalities in the Lefty protein or its genes can lead to a variety of developmental disorders. For example, mutations in the LEFTY genes have been associated with [[Congenital heart defect|congenital heart defects]], [[Infertility|infertility]], and certain types of [[Cancer|cancer]]. The protein is also being studied for its potential role in [[Regenerative medicine|regenerative medicine]].
+During [[gastrulation]], Lefty is expressed in specific regions of the developing embryo, where it helps to establish the [[left-right axis]]. It is particularly important in the development of the [[heart]], [[lungs]], and other asymmetrically positioned organs. The precise regulation of Lefty expression ensures that these organs develop on the correct side of the body.
-== See also ==
+== Clinical Significance ==
-* [[Transforming growth factor beta|TGF-beta]]
+Abnormalities in Lefty expression or function can lead to [[congenital disorders]] such as [[situs inversus]], where the positions of the internal organs are mirrored from their normal positions. Understanding the role of Lefty in these processes is important for developing potential therapeutic interventions.
-* [[Nodal (protein)|Nodal]]
-* [[Situs inversus]]
-* [[Heterotaxy]]
-== References ==
+== Related pages ==
-{{Reflist}}
+* [[Nodal (protein)]]
+* [[TGF-beta superfamily]]
+* [[Embryonic development]]
+* [[Left-right asymmetry]]
 [[Category:Proteins]]
-[[Category:Genes]]
 [[Category:Developmental biology]]
-[[Category:Human proteins]]
-{{Protein-stub}}