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Acrosome reaction

April 12, 2024

For fertilization to happen between a sperm and egg cell, a sperm must first fuse with the plasma membrane and then penetrate the female egg cell to fertilize it. While the fusion of the sperm cell with the egg cell's plasma membrane is relatively straightforward, penetrating the egg's protective layers, such as the zona pellucida, presents a significant challenge. Therefore, sperm cells go through a process known as the acrosome reaction, which is the reaction that occurs in the acrosome of the sperm as it approaches the egg.

Acrosome reaction on a Sea Urchin cell

The acrosome is a membrane-bound organelle of Golgi apparatus origin, commonly located at the tip of the head of the mature spermatozoon, Which contains a variety of enzymes and antigens required for fertilization. It was once called "apical body" because of its location, or "perforatorium" on the assumption that it might assist the spermatozoon boring into the egg.[1]

Acrosomal Reaction

As the sperm approaches the zona pellucida of the egg, which is necessary for initiating the acrosome reaction, the membrane surrounding the acrosome fuses with the plasma membrane of the sperm's head, exposing the contents of the acrosome. The contents include surface antigens necessary for binding to the egg's cell membrane, and numerous enzymes which are responsible for breaking through the egg's tough coating and allowing fertilization to occur.[2]

Variations among species edit

There are considerable species variations in the morphology and consequences of the acrosome reaction. In several species, the trigger for the acrosome reaction has been identified in a layer that surrounds the egg.

Echinoderms edit

In some lower animal species, a protuberance (the acrosomal process) forms at the apex of the sperm head, supported by a core of actin microfilaments. The membrane at the tip of the acrosomal process fuses with the egg's plasma membrane.

In some echinoderms, including starfish and sea urchins, a significant portion of the exposed acrosomal content contains a protein that temporarily holds the sperm on the egg's surface.

Mammals edit

In mammals, the acrosome reaction releases hyaluronidase and acrosin; their role in fertilization is not yet clear. The acrosomal reaction is initiated when sperm comes into contact with the oocyte's zona pellucida. Upon coming into contact with the zona pellucida, the acrosomal enzymes begin to dissolve, and the actin filament comes into contact with the zona pellucida. Once the two meet, a calcium influx occurs, causing a signaling cascade. The cortical granules inside the oocyte then fuse to the outer membrane, and a quick fast block reaction occurs.

Furthermore, the cortical granules inside the oocyte fuse with the outer membrane, initiating a rapid block reaction. This reaction alters a patch of pre-existing sperm plasma membrane, facilitating fusion with the egg plasma membrane.

A sperm penetration assay includes an acrosome reaction test that assesses how well a sperm can perform during the fertilization process. Sperm that are unable to go through the acrosome reaction properly will not be able to fertilize an egg. However, this problem only occurs in about 5% of men that have the test done. This test is rather expensive and provides limited information on a man's fertility.[3]

In other cases, such as in the wood mouse Apodemus sylvaticus, premature acrosome reactions have been found to cause increased motility in aggregates of spermatozoa promoting fertilization.[4]

The process edit

The acrosomal reaction usually takes place in the ampulla of the fallopian tube (site of fertilization) when the sperm penetrates the secondary oocyte. A few events precede to prepare for the acrosome reaction. The sperm cell acquires a "hyperactive motility pattern" by which its flagellum produces vigorous whip-like movements that propel the sperm through the cervical canal and uterine cavity until it reaches the isthmus of the fallopian tube. The sperm approaches the ovum in the ampulla of the fallopian tube with the help of various mechanisms, including chemotaxis. Glycoproteins on the outer surface of the sperm then bind with glycoproteins on the zona pellucida of the ovum.

Sperm that fail to initiate the acrosome reaction prior to reaching to the zona pellucida are unable to penetrate the zona pellucida. Since the acrosome reaction has already occurred, sperm are then able to penetrate the zona pellucida due to mechanical action of the tail, not because of the acrosome reaction itself.[5]

The first stage is the penetration of corona radiata, by releasing hyaluronidase from the acrosome to digest cumulus cells surrounding the oocyte and exposing acrosin attached to the inner membrane of the sperm. The cumulus cells are embedded in a gel-like substance made primarily of hyaluronic acid, and developed in the ovary with the egg and support it as it grows. The acrosome reaction must occur before the sperm cell reaches the zona pellucida.[5]

Acrosin, once exposed, digests the zona pellucida and membrane of the oocyte, allowing for penetration to happen. Part of the sperm's cell membrane then fuses with the egg cell's membrane, and the contents of the head sink into the egg. In the mouse, it has been demonstrated that ZP3, one of the proteins that make up the zona pellucida, binds to a partner molecule (to the β1,4-galactosyl transferase receptors) on the sperm. This lock-and-key type mechanism is species-specific and prevents the sperm and egg of different species from fusing. The zona pellucida also releases Ca granules to prevent other sperm from binding. There is some evidence that this binding is what triggers the acrosome to release the enzymes that allow the sperm to fuse with the egg. A similar mechanism likely occurs in other mammals, but the diversity of zona proteins across species means that the relevant protein and receptor may differ.

More recent scientific evidence demonstrates that the acrosomal reaction is necessary to expose a protein called IZUMO1 on the sperm: without the reaction, sperm can still penetrate through the zona pellucida to the egg membrane, but cannot fuse.[6] As seen in mouse studies, IZUMO1 binds to the oocyte protein JUNO and once bound together, the sperm and the egg fuse together to form two pronuclei.[7][8] These pronuclei supply the zygote with the genetic material necessary for the formation of an embryo. Additionally, once the fusion of the sperm and oocyte is complete, phospholipase C zeta is released from the sperm.

Following penetration and fusion, if all is normally occurring, the process of egg-activation occurs facilitated by proteins like phospholipase C zeta, and the oocyte is said to have become activated. This is thought to be induced by a specific protein phospholipase c zeta. It undergoes its secondary meiotic division, and the two haploid nuclei (paternal and maternal) fuse to form a zygote. To prevent polyspermy and minimize the possibility of producing a triploid zygote, several changes to the egg's cell membranes render them impenetrable shortly after the first sperm enters the egg (such as the rapid loss of JUNO).[8]

Spontaneous acrosome reaction edit

Spermatozoa can initiate the acrosomal reaction well in advance of reaching the zona pellucida, as well as in vitro in an appropriate culture medium. This is referred to as spontaneous acrosome reaction (SAR).

It is now known that in a certain sense, this phenomenon is physiologically normal across mammalian species. The acrosome reaction is induced by passage through the cumulus oophorus cells, mediated by the hormones they secrete (such as progesterone, LPA, LPC).[6][9][10]

However, the physiological role of truly spontaneous acrosomal reaction, occurring well before this point in the female reproductive tract, or in vitro, is a separate phenomenon.

In mice, it has been well established as physiologically normal and common. Mouse sperm which have undergone fully spontaneous acrosome reaction are still able to fertilize eggs.[6] Furthermore, the rate of spontaneous acrosome reaction is higher in more promiscuous species such as Apodemus sylvaticus, which face a high level of sperm competition.[11]

In humans, on the other hand, it remains disputed where exactly the acrosome reaction is initiated in physiological fertilization, due to experimental constraints (for example, animal studies may make use of transgenic mice with fluorescent sperm, while human studies cannot).[10]

Studies have been done with the intent of linking in vitro SAR rate in human sperm to sperm quality and fertilization rate, but the overall results are mixed, and do not seem to be clinically useful as of 2018.[12]

In in vitro fertilization edit

When using intracytoplasmic sperm injection (ICSI) for IVF, the implantation rate is higher in oocytes injected with spermatozoa that have undergone acrosome reaction (~40%) vs. those injected with nonreacted spermatozoa (~10%). The implantation rate is ~25% in when injected with both reacted and nonreacted spermatozoa. The delivery rate per cycle follows the same trend.[13]

The acrosome reaction can be stimulated in vitro by substances a sperm cell may encounter naturally, such as progesterone or follicular fluid, as well as the more commonly used calcium ionophore A23187.

Assessment edit

Birefringence microscopy,[13] flow cytometry[14] or fluorescence microscopy can be used for assessing the shedding of the acrosome or "acrosome reaction" of a sperm sample. Flow cytometry and fluorescence microscopy are usually done after staining with a fluoresceinated lectin such as FITC-PNA, FITC-PSA, FITC-ConA, or fluoresceinated antibody such as FITC-CD46.[15] The antibodies/lectins have a high specificity for different parts of the acrosomal region, and will only bind to a specific site (acrosomal content/ inner/outer membrane). If bound to a fluorescent molecule, regions where these probes have bound can be visualised. Sperm cells with artificially induced acrosome reactions may serve as positive controls.

For fluorescence microscopy, a smear of washed sperm cells is made, air-dried, permeabilized, and then stained. Such a slide is then viewed under the light of a wavelength that will cause the probe to fluoresce if it is bound to the acrosomal region. At least 200 cells are considered arbitrarily and classified as either acrosome intact (fluorescing bright green), or acrosome reacted (no probe present, or only on the equatorial region). It is then expressed as a percentage of the counted cells.

For assessment with flow cytometry, the washed cells are incubated with the chosen probe, possibly passed again, then sampled in a flow cytometer. After gating the cell population according to forward- and side-scatter, the resulting data can be analyzed (E.g. mean fluorescences compared). With this technique, a probe for viability such as propidium iodide (PI) could also be included in order to exclude dead cells from the acrosome assessment, since many sperm cells will spontaneously lose their acrosome when they die.

See also edit

References edit

  1. ^ Hirohashi, Noritaka; Yanagimachi, Ryuzo (2018-07-01). "Sperm acrosome reaction: its site and role in fertilization". Biology of Reproduction. 99 (1): 127–133. doi:10.1093/biolre/ioy045. ISSN 1529-7268. PMID 29462288.
  2. ^ Swiss Virtual Campus. . Human Embryology. universities of Fribourg, Lausanne and Bern. Archived from the original on 18 February 2019. Retrieved 18 February 2017.
  3. ^ "Your path to fertility: Acrosome Reaction". 2007.[unreliable medical source?]
  4. ^ Moore, Harry; Dvoráková, Katerina; Jenkins, Nicholas; Breed, William (2002). "Exceptional sperm cooperation in the wood mouse" (PDF). Nature. 418 (6894): 174–7. doi:10.1038/nature00832. PMID 12110888. S2CID 4413444.
  5. ^ a b Inoue, N; Satouh, Y; Ikawa, M; Okabe, M; Yanagimachi, R (2011). "Acrosome-reacted mouse spermatozoa recovered from the perivitelline space can fertilize other eggs". Proceedings of the National Academy of Sciences. 108 (50): 20008–11. Bibcode:2011PNAS..10820008I. doi:10.1073/pnas.1116965108. PMC 3250175. PMID 22084105.
  6. ^ a b c Ikawa, Masahito; Inoue, Naokazu; Benham, Adam M.; Okabe, Masaru (2010-04-01). "Fertilization: a sperm's journey to and interaction with the oocyte". The Journal of Clinical Investigation. 120 (4): 984–994. doi:10.1172/JCI41585. ISSN 0021-9738. PMC 2846064. PMID 20364096.
  7. ^ Inoue, Naokazu; Satouh, Yuhkoh; Ikawa, Masahito; Okabe, Masaru; Yanagimachi, Ryuzo (2011-12-13). "Acrosome-reacted mouse spermatozoa recovered from the perivitelline space can fertilize other eggs". Proceedings of the National Academy of Sciences of the United States of America. 108 (50): 20008–20011. doi:10.1073/pnas.1116965108. ISSN 0027-8424. PMC 3250175. PMID 22084105.
  8. ^ a b Bianchi, Enrica; Doe, Brendan; Goulding, David; Wright, Gavin J. (2014-04-24). "Juno is the egg Izumo receptor and is essential for mammalian fertilisation". Nature. 508 (7497): 483–487. Bibcode:2014Natur.508..483B. doi:10.1038/nature13203. ISSN 0028-0836. PMC 3998876. PMID 24739963.
  9. ^ Bosakova, Tereza; Tockstein, Antonin; Sebkova, Natasa; Simonik, Ondrej; Adamusova, Hana; Albrechtova, Jana; Albrecht, Tomas; Bosakova, Zuzana; Dvorakova-Hortova, Katerina (2018-12-12). "New Insight into Sperm Capacitation: A Novel Mechanism of 17β-Estradiol Signalling". International Journal of Molecular Sciences. 19 (12): 4011. doi:10.3390/ijms19124011. ISSN 1422-0067. PMC 6321110. PMID 30545117.
  10. ^ a b Gómez-Torres, María José; García, Eva María; Guerrero, Jaime; Medina, Sonia; Izquierdo-Rico, María José; Gil-Izquierdo, Ángel; Orduna, Jesús; Savirón, María; González-Brusi, Leopoldo; Ten, Jorge; Bernabeu, Rafael (2015-11-09). "Metabolites involved in cellular communication among human cumulus-oocyte-complex and sperm during in vitro fertilization". Reproductive Biology and Endocrinology. 13: 123. doi:10.1186/s12958-015-0118-9. ISSN 1477-7827. PMC 4640411. PMID 26553294.
  11. ^ Sebkova, Natasa; Ded, Lukas; Vesela, Katerina; Dvorakova-Hortova, Katerina (2014-02-01). "Progress of sperm IZUMO1 relocation during spontaneous acrosome reaction". Reproduction. 147 (2): 231–240. doi:10.1530/REP-13-0193. ISSN 1741-7899. PMID 24277869.
  12. ^ Xu, Fang; Guo, Ganggang; Zhu, Wenbing; Fan, Liqing (2018-08-24). "Human sperm acrosome function assays are predictive of fertilization rate in vitro: a retrospective cohort study and meta-analysis". Reproductive Biology and Endocrinology. 16 (1): 81. doi:10.1186/s12958-018-0398-y. ISSN 1477-7827. PMC 6109296. PMID 30143014.
  13. ^ a b Gianaroli, Luca; Magli, M. Cristina; Ferraretti, Anna P; Crippa, Andor; Lappi, Michela; Capitani, Serena; Baccetti, Baccio (2010). "Birefringence characteristics in sperm heads allow for the selection of reacted spermatozoa for intracytoplasmic sperm injection". Fertility and Sterility. 93 (3): 807–13. doi:10.1016/j.fertnstert.2008.10.024. PMID 19064263.
  14. ^ Miyazaki, R; Fukuda, M; Takeuchi, H; Itoh, S; Takada, M (2009). "Flow Cytometry to Evaluate Acrosome-Reacted Sperm". Archives of Andrology. 25 (3): 243–51. doi:10.3109/01485019008987613. PMID 2285347.
  15. ^ Carver-Ward, J. A; Moran-Verbeek, I. M; Hollanders, J. M. G (1997). "Comparative flow cytometric analysis of the human sperm acrosome reaction using CD46 antibody and lectins". Journal of Assisted Reproduction and Genetics. 14 (2): 111–9. doi:10.1007/BF02765780. PMC 3454831. PMID 9048242.

External links edit

  • Acrosome+reaction at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
  • Nosek, Thomas M. . Essentials of Human Physiology. Archived from the original on 2016-03-24.
  • Animation at stanford.edu

April 12, 2024
acrosome, reaction, fertilization, happen, between, sperm, cell, sperm, must, first, fuse, with, plasma, membrane, then, penetrate, female, cell, fertilize, while, fusion, sperm, cell, with, cell, plasma, membrane, relatively, straightforward, penetrating, pro. For fertilization to happen between a sperm and egg cell a sperm must first fuse with the plasma membrane and then penetrate the female egg cell to fertilize it While the fusion of the sperm cell with the egg cell s plasma membrane is relatively straightforward penetrating the egg s protective layers such as the zona pellucida presents a significant challenge Therefore sperm cells go through a process known as the acrosome reaction which is the reaction that occurs in the acrosome of the sperm as it approaches the egg Acrosome reaction on a Sea Urchin cellThe acrosome is a membrane bound organelle of Golgi apparatus origin commonly located at the tip of the head of the mature spermatozoon Which contains a variety of enzymes and antigens required for fertilization It was once called apical body because of its location or perforatorium on the assumption that it might assist the spermatozoon boring into the egg 1 Acrosomal ReactionAs the sperm approaches the zona pellucida of the egg which is necessary for initiating the acrosome reaction the membrane surrounding the acrosome fuses with the plasma membrane of the sperm s head exposing the contents of the acrosome The contents include surface antigens necessary for binding to the egg s cell membrane and numerous enzymes which are responsible for breaking through the egg s tough coating and allowing fertilization to occur 2 Contents 1 Variations among species 1 1 Echinoderms 1 2 Mammals 2 The process 3 Spontaneous acrosome reaction 4 In in vitro fertilization 4 1 Assessment 5 See also 6 References 7 External linksVariations among species editThere are considerable species variations in the morphology and consequences of the acrosome reaction In several species the trigger for the acrosome reaction has been identified in a layer that surrounds the egg Echinoderms edit In some lower animal species a protuberance the acrosomal process forms at the apex of the sperm head supported by a core of actin microfilaments The membrane at the tip of the acrosomal process fuses with the egg s plasma membrane In some echinoderms including starfish and sea urchins a significant portion of the exposed acrosomal content contains a protein that temporarily holds the sperm on the egg s surface Mammals edit In mammals the acrosome reaction releases hyaluronidase and acrosin their role in fertilization is not yet clear The acrosomal reaction is initiated when sperm comes into contact with the oocyte s zona pellucida Upon coming into contact with the zona pellucida the acrosomal enzymes begin to dissolve and the actin filament comes into contact with the zona pellucida Once the two meet a calcium influx occurs causing a signaling cascade The cortical granules inside the oocyte then fuse to the outer membrane and a quick fast block reaction occurs Furthermore the cortical granules inside the oocyte fuse with the outer membrane initiating a rapid block reaction This reaction alters a patch of pre existing sperm plasma membrane facilitating fusion with the egg plasma membrane A sperm penetration assay includes an acrosome reaction test that assesses how well a sperm can perform during the fertilization process Sperm that are unable to go through the acrosome reaction properly will not be able to fertilize an egg However this problem only occurs in about 5 of men that have the test done This test is rather expensive and provides limited information on a man s fertility 3 In other cases such as in the wood mouse Apodemus sylvaticus premature acrosome reactions have been found to cause increased motility in aggregates of spermatozoa promoting fertilization 4 The process editThe acrosomal reaction usually takes place in the ampulla of the fallopian tube site of fertilization when the sperm penetrates the secondary oocyte A few events precede to prepare for the acrosome reaction The sperm cell acquires a hyperactive motility pattern by which its flagellum produces vigorous whip like movements that propel the sperm through the cervical canal and uterine cavity until it reaches the isthmus of the fallopian tube The sperm approaches the ovum in the ampulla of the fallopian tube with the help of various mechanisms including chemotaxis Glycoproteins on the outer surface of the sperm then bind with glycoproteins on the zona pellucida of the ovum Sperm that fail to initiate the acrosome reaction prior to reaching to the zona pellucida are unable to penetrate the zona pellucida Since the acrosome reaction has already occurred sperm are then able to penetrate the zona pellucida due to mechanical action of the tail not because of the acrosome reaction itself 5 The first stage is the penetration of corona radiata by releasing hyaluronidase from the acrosome to digest cumulus cells surrounding the oocyte and exposing acrosin attached to the inner membrane of the sperm The cumulus cells are embedded in a gel like substance made primarily of hyaluronic acid and developed in the ovary with the egg and support it as it grows The acrosome reaction must occur before the sperm cell reaches the zona pellucida 5 Acrosin once exposed digests the zona pellucida and membrane of the oocyte allowing for penetration to happen Part of the sperm s cell membrane then fuses with the egg cell s membrane and the contents of the head sink into the egg In the mouse it has been demonstrated that ZP3 one of the proteins that make up the zona pellucida binds to a partner molecule to the b1 4 galactosyl transferase receptors on the sperm This lock and key type mechanism is species specific and prevents the sperm and egg of different species from fusing The zona pellucida also releases Ca granules to prevent other sperm from binding There is some evidence that this binding is what triggers the acrosome to release the enzymes that allow the sperm to fuse with the egg A similar mechanism likely occurs in other mammals but the diversity of zona proteins across species means that the relevant protein and receptor may differ More recent scientific evidence demonstrates that the acrosomal reaction is necessary to expose a protein called IZUMO1 on the sperm without the reaction sperm can still penetrate through the zona pellucida to the egg membrane but cannot fuse 6 As seen in mouse studies IZUMO1 binds to the oocyte protein JUNO and once bound together the sperm and the egg fuse together to form two pronuclei 7 8 These pronuclei supply the zygote with the genetic material necessary for the formation of an embryo Additionally once the fusion of the sperm and oocyte is complete phospholipase C zeta is released from the sperm Following penetration and fusion if all is normally occurring the process of egg activation occurs facilitated by proteins like phospholipase C zeta and the oocyte is said to have become activated This is thought to be induced by a specific protein phospholipase c zeta It undergoes its secondary meiotic division and the two haploid nuclei paternal and maternal fuse to form a zygote To prevent polyspermy and minimize the possibility of producing a triploid zygote several changes to the egg s cell membranes render them impenetrable shortly after the first sperm enters the egg such as the rapid loss of JUNO 8 Spontaneous acrosome reaction editSpermatozoa can initiate the acrosomal reaction well in advance of reaching the zona pellucida as well as in vitro in an appropriate culture medium This is referred to as spontaneous acrosome reaction SAR It is now known that in a certain sense this phenomenon is physiologically normal across mammalian species The acrosome reaction is induced by passage through the cumulus oophorus cells mediated by the hormones they secrete such as progesterone LPA LPC 6 9 10 However the physiological role of truly spontaneous acrosomal reaction occurring well before this point in the female reproductive tract or in vitro is a separate phenomenon In mice it has been well established as physiologically normal and common Mouse sperm which have undergone fully spontaneous acrosome reaction are still able to fertilize eggs 6 Furthermore the rate of spontaneous acrosome reaction is higher in more promiscuous species such as Apodemus sylvaticus which face a high level of sperm competition 11 In humans on the other hand it remains disputed where exactly the acrosome reaction is initiated in physiological fertilization due to experimental constraints for example animal studies may make use of transgenic mice with fluorescent sperm while human studies cannot 10 Studies have been done with the intent of linking in vitro SAR rate in human sperm to sperm quality and fertilization rate but the overall results are mixed and do not seem to be clinically useful as of 2018 12 In in vitro fertilization editWhen using intracytoplasmic sperm injection ICSI for IVF the implantation rate is higher in oocytes injected with spermatozoa that have undergone acrosome reaction 40 vs those injected with nonreacted spermatozoa 10 The implantation rate is 25 in when injected with both reacted and nonreacted spermatozoa The delivery rate per cycle follows the same trend 13 The acrosome reaction can be stimulated in vitro by substances a sperm cell may encounter naturally such as progesterone or follicular fluid as well as the more commonly used calcium ionophore A23187 Assessment edit Birefringence microscopy 13 flow cytometry 14 or fluorescence microscopy can be used for assessing the shedding of the acrosome or acrosome reaction of a sperm sample Flow cytometry and fluorescence microscopy are usually done after staining with a fluoresceinated lectin such as FITC PNA FITC PSA FITC ConA or fluoresceinated antibody such as FITC CD46 15 The antibodies lectins have a high specificity for different parts of the acrosomal region and will only bind to a specific site acrosomal content inner outer membrane If bound to a fluorescent molecule regions where these probes have bound can be visualised Sperm cells with artificially induced acrosome reactions may serve as positive controls For fluorescence microscopy a smear of washed sperm cells is made air dried permeabilized and then stained Such a slide is then viewed under the light of a wavelength that will cause the probe to fluoresce if it is bound to the acrosomal region At least 200 cells are considered arbitrarily and classified as either acrosome intact fluorescing bright green or acrosome reacted no probe present or only on the equatorial region It is then expressed as a percentage of the counted cells For assessment with flow cytometry the washed cells are incubated with the chosen probe possibly passed again then sampled in a flow cytometer After gating the cell population according to forward and side scatter the resulting data can be analyzed E g mean fluorescences compared With this technique a probe for viability such as propidium iodide PI could also be included in order to exclude dead cells from the acrosome assessment since many sperm cells will spontaneously lose their acrosome when they die See also editCortical reaction Hamster zona free ovum test ZP3References edit Hirohashi Noritaka Yanagimachi Ryuzo 2018 07 01 Sperm acrosome reaction its site and role in fertilization Biology of Reproduction 99 1 127 133 doi 10 1093 biolre ioy045 ISSN 1529 7268 PMID 29462288 Swiss Virtual Campus Chapter 4 Fertilization Human Embryology universities of Fribourg Lausanne and Bern Archived from the original on 18 February 2019 Retrieved 18 February 2017 Your path to fertility Acrosome Reaction 2007 unreliable medical source Moore Harry Dvorakova Katerina Jenkins Nicholas Breed William 2002 Exceptional sperm cooperation in the wood mouse PDF Nature 418 6894 174 7 doi 10 1038 nature00832 PMID 12110888 S2CID 4413444 a b Inoue N Satouh Y Ikawa M Okabe M Yanagimachi R 2011 Acrosome reacted mouse spermatozoa recovered from the perivitelline space can fertilize other eggs Proceedings of the National Academy of Sciences 108 50 20008 11 Bibcode 2011PNAS 10820008I doi 10 1073 pnas 1116965108 PMC 3250175 PMID 22084105 a b c Ikawa Masahito Inoue Naokazu Benham Adam M Okabe Masaru 2010 04 01 Fertilization a sperm s journey to and interaction with the oocyte The Journal of Clinical Investigation 120 4 984 994 doi 10 1172 JCI41585 ISSN 0021 9738 PMC 2846064 PMID 20364096 Inoue Naokazu Satouh Yuhkoh Ikawa Masahito Okabe Masaru Yanagimachi Ryuzo 2011 12 13 Acrosome reacted mouse spermatozoa recovered from the perivitelline space can fertilize other eggs Proceedings of the National Academy of Sciences of the United States of America 108 50 20008 20011 doi 10 1073 pnas 1116965108 ISSN 0027 8424 PMC 3250175 PMID 22084105 a b Bianchi Enrica Doe Brendan Goulding David Wright Gavin J 2014 04 24 Juno is the egg Izumo receptor and is essential for mammalian fertilisation Nature 508 7497 483 487 Bibcode 2014Natur 508 483B doi 10 1038 nature13203 ISSN 0028 0836 PMC 3998876 PMID 24739963 Bosakova Tereza Tockstein Antonin Sebkova Natasa Simonik Ondrej Adamusova Hana Albrechtova Jana Albrecht Tomas Bosakova Zuzana Dvorakova Hortova Katerina 2018 12 12 New Insight into Sperm Capacitation A Novel Mechanism of 17b Estradiol Signalling International Journal of Molecular Sciences 19 12 4011 doi 10 3390 ijms19124011 ISSN 1422 0067 PMC 6321110 PMID 30545117 a b Gomez Torres Maria Jose Garcia Eva Maria Guerrero Jaime Medina Sonia Izquierdo Rico Maria Jose Gil Izquierdo Angel Orduna Jesus Saviron Maria Gonzalez Brusi Leopoldo Ten Jorge Bernabeu Rafael 2015 11 09 Metabolites involved in cellular communication among human cumulus oocyte complex and sperm during in vitro fertilization Reproductive Biology and Endocrinology 13 123 doi 10 1186 s12958 015 0118 9 ISSN 1477 7827 PMC 4640411 PMID 26553294 Sebkova Natasa Ded Lukas Vesela Katerina Dvorakova Hortova Katerina 2014 02 01 Progress of sperm IZUMO1 relocation during spontaneous acrosome reaction Reproduction 147 2 231 240 doi 10 1530 REP 13 0193 ISSN 1741 7899 PMID 24277869 Xu Fang Guo Ganggang Zhu Wenbing Fan Liqing 2018 08 24 Human sperm acrosome function assays are predictive of fertilization rate in vitro a retrospective cohort study and meta analysis Reproductive Biology and Endocrinology 16 1 81 doi 10 1186 s12958 018 0398 y ISSN 1477 7827 PMC 6109296 PMID 30143014 a b Gianaroli Luca Magli M Cristina Ferraretti Anna P Crippa Andor Lappi Michela Capitani Serena Baccetti Baccio 2010 Birefringence characteristics in sperm heads allow for the selection of reacted spermatozoa for intracytoplasmic sperm injection Fertility and Sterility 93 3 807 13 doi 10 1016 j fertnstert 2008 10 024 PMID 19064263 Miyazaki R Fukuda M Takeuchi H Itoh S Takada M 2009 Flow Cytometry to Evaluate Acrosome Reacted Sperm Archives of Andrology 25 3 243 51 doi 10 3109 01485019008987613 PMID 2285347 Carver Ward J A Moran Verbeek I M Hollanders J M G 1997 Comparative flow cytometric analysis of the human sperm acrosome reaction using CD46 antibody and lectins Journal of Assisted Reproduction and Genetics 14 2 111 9 doi 10 1007 BF02765780 PMC 3454831 PMID 9048242 External links editAcrosome reaction at the U S National Library of Medicine Medical Subject Headings MeSH Nosek Thomas M Section 5 5ch8 s5ch8 21 Essentials of Human Physiology Archived from the original on 2016 03 24 Animation at stanford edu Retrieved from https en wikipedia org w index php title Acrosome reaction amp oldid 1217939938, wikipedia, wiki, book, books, library,

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