Tolerance of female co-breeders in joint-laying pukeko: the role of egg recognition and peace incentives

Hermaphroditic invertebrates and plants have a self-recognition system on the cell surface of sperm and eggs, which prevents their self-fusion and enhances non-self-fusion, thereby contributing to genetic variation. However, the system of sperm–egg recognition in mammals is under debate. To address this issue, we explored the role of major histocompatibility complex class I (MHC class I, also known as histocompatibility 2-Kb or H2-Kb and H2-Db in mice) antigens by analyzing H2-Kb-/-H2-Db-/-β2-microglobulin (β2M)-/- triple-knockout (T-KO) male mice with full fertility. T-KO sperm exhibited an increased sperm number in the perivitelline space of wild-type (WT) eggs in vitro. Moreover, T-KO sperm showed multiple fusion with zona pellucida (ZP)-free WT eggs, implying that the ability of polyspermy block for sperm from T-KO males was weakened in WT eggs. When T-KO male mice were intercrossed with WT female mice, the percentage of females in progeny increased. We speculate that WT eggs prefer fusion with T-KO sperm, more specifically X-chromosome-bearing sperm (X sperm), suggesting the presence of preferential (non-random) fertilization in mammals, including humans.

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Find and fuse: Unsolved mysteries in sperm–egg recognition

PLoS Biology ◽

10.1371/journal.pbio.3000953 ◽

2020 ◽

Vol 18 (11) ◽

pp. e3000953

Author(s):

Enrica Bianchi ◽

Gavin J. Wright

Keyword(s):

Cell Surface ◽

Sperm Cell ◽

Surface Proteins ◽

Secreted Proteins ◽

Egg Recognition ◽

Cell Surface Proteins ◽

Molecular Events ◽

Eukaryotic Species ◽

Fundamental Process

Sexual reproduction is such a successful way of creating progeny with subtle genetic variations that the vast majority of eukaryotic species use it. In mammals, it involves the formation of highly specialised cells: the sperm in males and the egg in females, each carrying the genetic inheritance of an individual. The interaction of sperm and egg culminates with the fusion of their cell membranes, triggering the molecular events that result in the formation of a new genetically distinct organism. Although we have a good cellular description of fertilisation in mammals, many of the molecules involved remain unknown, and especially the identity and role of cell surface proteins that are responsible for sperm–egg recognition, binding, and fusion. Here, we will highlight and discuss these gaps in our knowledge and how the role of some recently discovered sperm cell surface and secreted proteins contribute to our understanding of this fundamental process.

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A Meta-Analysis of Avian Egg Traits Cueing Egg-Rejection Defenses Against Brood Parasitism

Frontiers in Ecology and Evolution ◽

10.3389/fevo.2021.703208 ◽

2021 ◽

Vol 9 ◽

Author(s):

Peter Samaš ◽

Mark E. Hauber ◽

Marcel Honza

Keyword(s):

Brood Parasitism ◽

Research Effort ◽

Meta Analysis ◽

Phenotypic Traits ◽

Egg Rejection ◽

Egg Recognition ◽

Avian Brood Parasitism ◽

Egg Traits ◽

New Research

The capability of hosts to reject the odd egg from their nest is one of the key defenses against avian brood parasitism. Considerable research effort has been devoted to exploring which phenotypic traits of eggshells facilitate to cue the recognition of the parasitic egg. Here we have reviewed studies addressing salient egg traits involved in the rejection of foreign eggs and used a formal meta-analysis to quantify their relative importance. Hosts appear to rely to a large extent on eggshell color traits, followed by maculation patterns. Hosts respond with similar rates of egg rejection to natural vs. model eggs and when breeding in both closed and open nests. Analyses of experiments on hosts of Cuculus and Molothrus parasites, the two best studied brood parasitic lineages with different co-evolutionary histories, yield similar conclusions. We also identify several poorly studied potential egg recognition cues, such as odor or weight, and recommend exploring even the visual traits in more detail, including chromatic and achromatic contrasts or experimentally manipulated egg maculation characteristics. Recent technological and sensory ecological advances open many new research avenues to experimentally examine the role of diverse egg characteristics in antiparasite defenses.

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Egg recognition in Cinereous Tits (Parus cinereus): eggshell spots matter

Avian Research ◽

10.1186/s40657-019-0178-1 ◽

2019 ◽

Vol 10 (1) ◽

Cited By ~ 4

Author(s):

Jianping Liu ◽

Canchao Yang ◽

Jiangping Yu ◽

Haitao Wang ◽

Wei Liang

Keyword(s):

Selection Pressure ◽

Rejection Rate ◽

Egg Rejection ◽

Egg Recognition ◽

Good Ability ◽

Signaling Function ◽

Significant Difference ◽

Recognition Ability ◽

Pure White

Abstract Background Brood parasitic birds such as cuckoos (Cuculus spp.) can reduce their host’s reproductive success. Such selection pressure on the hosts has driven the evolution of defense behaviors such as egg rejection against cuckoo parasitism. Studies have shown that Cinereous Tits (Parus cinereus) in China have a good ability for recognizing foreign eggs. However, it is unclear whether egg spots play a role in egg recognition. The aims of our study were to investigate the egg recognition ability of two Cinereous Tit populations in China and to explore the role of spots in egg recognition. Methods To test the effect of eggshell spots on egg recognition, pure white eggs of the White-rumped Munia (Lonchura striata) and eggs of White-rumped Munia painted with red brown spots were used to simulate experimental parasitism. Results Egg experiments showed that Cinereous Tits rejected 51.5% of pure white eggs of the White-rumped Munia, but only 14.3% of spotted eggs of the White-rumped Munia. There was a significant difference in egg recognition and rejection rate between the two egg types. Conclusions We conclude that eggshell spots on Cinereous Tit eggs had a signaling function and may be essential to tits for recognizing and rejecting parasitic eggs.

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Role of hydrocarbons in egg recognition in the honeybee

Physiological Entomology ◽

10.1111/j.0307-6962.2004.00404.x ◽

2004 ◽

Vol 29 (4) ◽

pp. 395-399 ◽

Cited By ~ 12

Author(s):

Stephen J. Martin ◽

Graeme R. Jones ◽

Nicolas Chaline ◽

Francis L. W. Ratnieks

Keyword(s):

Egg Recognition

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Inhibition of sperm - egg binding and fertilisation in mice by a monoclonal antibody reactive to 57-kDa human sperm surface antigen

Reproduction Fertility and Development ◽

10.1071/rd06028 ◽

2006 ◽

Vol 18 (8) ◽

pp. 875 ◽

Cited By ~ 2

Author(s):

K. V. R. Reddy ◽

G. Vijayalaxmi ◽

K. S. Rajeev ◽

C. Aranha

Keyword(s):

Present Report ◽

Mammalian Species ◽

Human Sperm ◽

Equatorial Region ◽

Human Spermatozoa ◽

Dependent Manner ◽

Egg Recognition ◽

Sperm Antigens ◽

Dose Dependent

Monoclonal antibodies (mAbs) against spermatozoa are a popular approach to define sperm antigens involved in the process of fertilisation. The identification and characterisation of a 57-kDa fertility asssociated sperm antigen (FASA-57) from human spermatozoa was reported in an earlier paper by the authors. In the present report, studies to develop mAbs against partially purified FASA-57 are extended. From a panel of mAbs raised, one clone designated as 3H4B9 was selected and characterised because it recognised native FASA-57. Indirect immunofluorescence studies revealed that FASA-57 localised on the acrosome of non-acrosome-reacted human spermatozoa and on the equatorial region after the acrosome reaction. Spermatozoa from several other mammalian species were also found to express this antigen, suggesting its evolutionary conservation across the species. The antigen localised specifically in spermatogonial cells and luminal spermatozoa of the testis and epididymis. Western blot studies showed the presence of a FASA-57-like protein in the mouse brain also, indicating that testis and brain share antigenic similarities. Further, the role of FASA-57 in sperm–egg interaction was investigated using a mouse model. The mAb 3H4B9 inhibited sperm–egg binding and fusion in a dose-dependent manner with half-maximal inhibition at 2 µg mL–1. In conclusion, FASA-57 appears to play an important role in sperm–egg recognition, fusion and fertilisation. Therefore, FASA-57 could be used as a diagnostic marker in the evaluation of male infertility.

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