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Fertilization01:38

Fertilization

During fertilization, an egg and sperm cell fuse to create a new diploid structure. In humans, the process occurs once the egg has been released from the ovary, and travels into the fallopian tubes. The process requires several key steps: 1) sperm present in the genital tract must locate the egg; 2) once there, sperm need to release enzymes to help them burrow through the protective zona pellucida of the egg; and 3) the membranes of a single sperm cell and egg must fuse, with the sperm...
In Vitro Fertilization01:24

In Vitro Fertilization

In vitro fertilization (IVF) is a form of assisted reproductive technology where an egg is fertilized with sperm in a controlled laboratory environment before transferring the resulting embryo into the uterus. This process is designed to help individuals and couples experiencing difficulties conceiving.
The IVF process begins with ovarian stimulation, during which reproductive endocrinologists prescribe hormonal medications to stimulate the ovaries to produce multiple eggs instead of the single...
The Angiosperm Life Cycle02:39

The Angiosperm Life Cycle

Plants have a life cycle split between two multicellular stages: a haploid stage—with cells containing one set of chromosomes—and a diploid stage—with cells containing two sets of chromosomes. The haploid stage is the gamete-producing gametophyte, and the diploid stage is the spore-producing sporophyte.
Trihybrid Crosses02:27

Trihybrid Crosses

Trihybrid Crosses
Some of Mendel’s crosses examined three pairs of contrasting characteristics. Such a cross is called a trihybrid cross. A trihybrid cross is a combination of three individual monohybrid crosses. For example, plant height (tall vs. short), seed shape (round vs. wrinkled), and seed color (yellow vs. green).
The F1 generation plants of a trihybrid cross are heterozygous for all three traits and produce eight gametes. Upon self-fertilization, these gametes have an equal chance to...
Crossing Over01:34

Crossing Over

Unlike mitosis, meiosis aims for genetic diversity in its creation of haploid gametes. Dividing germ cells first begin this process in prophase I, where each chromosome—replicated in S phase—is now composed of two sister chromatids (identical copies) joined centrally.
The homologous pairs of sister chromosomes—one from the maternal and one from the paternal genome—then begin to align alongside each other lengthwise, matching corresponding DNA positions in a process called synapsis.
In order to...
Crossing Over01:30

Crossing Over

Crossing over is the exchange of genetic information between homologous chromosomes during prophase I of meiosis I. Genetic recombination gives rise to allelic diversity in the newly formed daughter cells. In humans, crossing over produces genetically distinct haploid egg and sperm cells that undergo fertilization to produce unique offspring. Before cell division starts, the germ cell’s chromosome(s) undergo duplication in the S phase of the cell cycle. As the cells enter prophase I, duplicated...

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Related Experiment Video

Updated: Jul 3, 2026

Evaluation of Fertilization State by Tracing Sperm Nuclear Morphology in Arabidopsis Double Fertilization
05:21

Evaluation of Fertilization State by Tracing Sperm Nuclear Morphology in Arabidopsis Double Fertilization

Published on: August 29, 2019

Double fertilization - caught in the act.

Frédéric Berger1, Yuki Hamamura, Mathieu Ingouff

  • 1Temasek Life Sciences Laboratory, 1 Research Link, National University of Singapore, 117604, Singapore. fred@tll.org.sg

Trends in Plant Science
|July 25, 2008
PubMed
Summary
This summary is machine-generated.

Flowering plant fertilization, or double fertilization, involves unique male and female gamete interactions. Recent advances reveal molecular pathways controlling male gamete release and fusion, crucial for seed production and crop improvement.

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Live Imaging of Arabidopsis Pollen Tube Reception and Double Fertilization Using the Semi-In Vitro Cum Septum Method
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In Vivo Visualization of Calcium Transients during Fertilization and Early Development in C. elegans
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In Vivo Visualization of Calcium Transients during Fertilization and Early Development in C. elegans

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Related Experiment Videos

Last Updated: Jul 3, 2026

Evaluation of Fertilization State by Tracing Sperm Nuclear Morphology in Arabidopsis Double Fertilization
05:21

Evaluation of Fertilization State by Tracing Sperm Nuclear Morphology in Arabidopsis Double Fertilization

Published on: August 29, 2019

Live Imaging of Arabidopsis Pollen Tube Reception and Double Fertilization Using the Semi-In Vitro Cum Septum Method
06:45

Live Imaging of Arabidopsis Pollen Tube Reception and Double Fertilization Using the Semi-In Vitro Cum Septum Method

Published on: February 24, 2023

In Vivo Visualization of Calcium Transients during Fertilization and Early Development in C. elegans
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In Vivo Visualization of Calcium Transients during Fertilization and Early Development in C. elegans

Published on: July 12, 2024

Area of Science:

  • Plant reproductive biology
  • Molecular and cellular biology

Background:

  • Fertilization in flowering plants is a complex process involving two male gametes and one female gamete.
  • Understanding the molecular mechanisms of double fertilization is key to improving crop yields.

Purpose of the Study:

  • To provide an overview of recent advances in double fertilization research.
  • To highlight key molecular pathways and proteins involved in gamete interaction and fusion.

Main Methods:

  • In vivo imaging techniques to observe double fertilization.
  • Genetic analysis and mutant characterization to identify key genes and proteins.
  • Biochemical assays to study protein function in gamete fusion.

Main Results:

  • Identification of a signaling pathway regulating male gamete release.
  • Discovery of a protein essential for male and female gamete membrane fusion.
  • In vivo imaging provides unprecedented insights into the dynamics of double fertilization.

Conclusions:

  • Recent molecular discoveries are significantly advancing our understanding of double fertilization.
  • Further research into molecular pathways and mutants will enhance crop breeding programs.
  • Molecular insights into double fertilization are vital for improving seed production and agricultural practices.