Androgenesis in rainbow trout using cryopreserved spermatozoa: the effect of processing and biological factors

In addition to producing homozygous lines for biomedical and genomic research and monosex stocks for commercial purposes, androgenesis is the biotechnology considered most promising and reliable for recovering complete nuclear genome information from cryopreserved fish cells. That is because procedures of cryopreserving spermatozoa, contrary to procedures for oocytes or entire eggs, are being well developed. Application of androgenesis in genome banking programs addresses the needs of both the aquaculture industry (safeguard for valuable strains and lines) and natural resource conservation (in vitro protection of endangered species or populations). The present study was focused on successful production of an androgenetic rainbow trout stock using cryopreserved spermatozoa. Our report constitutes the first time a full factorial analysis of processing and biological factors affecting androgenesis efficacy has been presented. Also for the first time, the survival of androgenetic individuals during 2 years of life was recorded. Remarkably high survival rates were observed in one of the two experiments-up to 42.5 +/- 2.8% of hatched larvae, 22.5 +/- 0.1% of swim-up larvae and 10.5% of androgenetic alevins 0.4 g. Mortality rates in androgenetic groups were high especially during the first 6 months. In all, 114 androgenetic individuals (0.9%) survived 2 years. Cryopreservation of spermatozoa generally did not affect androgenesis efficiency significantly, however, this effect was significantly dependent on the method of ploidization shock and on the duration of treatment. Significant interactions were revealed between the irradiation dose and the magnitude of pressure applied, and between the treatment of sperm and duration of pressure shock. Individual variability of spermatozoa donors significantly affected androgenesis efficiency regardless of their genetic (outbred or inbred) origin. Genetic source of the oocytes, contrary to spermatozoa, proved to be an important factor. Following findings of other researchers that androgenesis using cryopreserved spermatozoa is possible, we demonstrated that viable stock could be successfully established from cryopreserved nuclear genome information. Complex statistical analysis of previously developed procedures resulted in information-rich data regarding factorial interactions helpful for developing protocols in genome-restoration programs.     

The evolution of androgenesis

It is well known that some species produce offspring carrying only female chromosomes by processes such as apomixis and parthenogenesis (generically termed "gynogenesis"). There are also several cases of natural reproduction by androgenesis in which diploid offspring carry nuclear chromosomes from only the male parent. We used population genetics models to investigate the conditions for invasion of rare androgenesis alleles and the consequences of their spread. Our models predict that androgenesis alleles often spread to fixation. If fixation causes the loss of females or female function in the population, population extinction occurs. Therefore, androgenesis alleles represent a new class of selfish genetic elements. Extinction is more likely in dioecious species than in hermaphrodites. Within dioecious species, extinction is more likely when androgenesis occurs via paternal apomixis (vs. fusion or doubling of haploid nuclei) and when females are the heterogametic sex (vs. male heterogamety). The apparent rarity of androgenesis compared to gynogenesis could be because androgenesis is harder to detect and more often leads to population extinction. Also, there could be greater evolutionary constraints on the origin of mutations for androgenesis. We suggest characteristics of groups in which further cases of androgenesis are more likely to be found.     

人工诱导泥鳅与大鳞副泥鳅雄核发育单倍体子代的RAPD分析

用３０个经过筛选的随机引物对３组泥鳅雄核发育单倍体、２组大鳞副尼鳅雄核发育单倍体及其相应亲本进行了ＲＡＰＤ分析。结果表明,雄核发育倍体子代与其父本的ＲＡＰＤ谱带相似率为９７．０％－９７．８％,与母本相似率为３０．３％－５９．５％,子代中的非亲本谱眩为０－０．０２９,极少母本特异谱带。这一结果说明雄性发育鱼类单倍体的遗传信息主要来自父本,且存在着个体差异,雄核发育子代存在ＤＮＡ变异和母本ＤＮＡ非特异带,但并非其必要条件。     

Androgenesis is a maternal trait in the invasive ant Wasmannia auropunctata

Androgenesis is the production of an offspring containing exclusively the nuclear genome of the fathering male via the maternal eggs. This unusual mating system is generally considered a male trait, giving to androgenetic males a substantial fitness advantage over their sexually reproducing relatives. We here provide the first empirical study of the evolutionary outcomes of androgenesis in a haplo-diploid organism: the invasive ant Wasmannia auropunctata. Some of the populations of this species have a classical haplo-diploid sexual mating system. In other populations, females and males are produced through parthenogenesis and androgenesis, respectively, whereas workers are produced sexually. We conducted laboratory reciprocal-cross experiments with reproductive individuals from both types of populations and analysed their progenies with genetic markers, to determine the respective contribution of males and females to the production of androgenetic males. We found that androgenesis was a parthenogenetic female trait. A population genetic study conducted in natura confirmed the parthenogenetic female origin of androgenesis, with the identification of introgression events of sexual male genotypes into androgenetic/parthenogenetic lineages. We argue that by producing males via androgenesis, parthenogenetic queen lineages may increase and/or maintain their adaptive potential, while maintaining the integrity of their own genome, by occasionally acquiring new male genetic material and avoiding inbreeding depression within the sexually produced worker cast.     

Organ-specific and ploidy-dependent somaclonal variation; a new tool in breeding

The organ-specific somaclonal variation means the differences between the variability of somaclones originated from different somatic tissue of plant. Significant differences in some agronomical characters were achieved among somaclones of seed and plumule meristem origin. The ploidy-dependent somaclonal variation means the differences between the variability of somaclones originated from different ploidy-level tissue. Increased variation among regenerated plants was postulated by origin from cultured cells of reduced ploidy level. The comparison of somaclonal variation in the progenies of diploid plants regenerated from callus of haploid and diploid origin supported the ploidy dependent theory. The pollenhaploid somaclone method (PHS-method) was developed and tested for utilization somaclonal variation in rice breeding. The PHS-method comprises the two well-known and widely applied in vitro methods which are the androgenesis (another culture) and genetic instability of cultured haploid somatic cells (callus cultures). Developmental varieties produced by this breeding sheme are under certification in Hungary.     

Genetic improvement of anther culture response in maize: relationships with molecular, Mendelian and agronomic traits

 Two cycles of androgenetic in vitro doubled haploid (DH) plant production and intermating were implemented in an experimental synthetic population of maize. In vitro traits, including androgenetic embryo production, the regeneration potential and the frequency of spontaneous chromosome doubling, were studied. The success of the regenerated plants to self pollinate was also observed. Impressive genetic progress is reported for all the steps of the androgenetic process including seed set. Differential genetic progress is recorded according to the trait measured. Using a set of Mendelian and molecular markers that mapped to the different maize chromosomes, we were able to characterize the variation in the genetic variability in the population. Progress in the in vitro response was not found to be associated with any noticeable decline in global genetic variability. In addition, the QTL chromosomic regions tested, which were involved in androgenetic response, were not found to be subjected to a strong variation during the breeding experiment. Some phenotypical and morphological traits were also evaluated, and these showed that there was no depreciation effect in the agronomic value of the population. DH plant production and intermating the regenerated plants may be considered for the introduction and use of androgenesis in material which responds poorly. Received: 3 October 1997 / Accepted: 25 November 1997     

Production of androgenetic diploid rainbow trout

Haploid androgenesis was induced in rainbow trout (Salmo gairdneri) when eggs were irradiated with 60Co gamma radiation prior to fertilization. Diploidy was restored to the androgenetic haploid zygotes by suppression of first cleavage division using hydrostatic pressure. Peak survival in the androgenetic diploid lots (32.5-38.9 percent of control) occurred when a pressure shock of 9000 pounds per square inch lasting from one to three minutes was applied to the eggs 345 minutes post-fertilization. Chromosomal analysis confirmed diploidy in the androgenetic individuals and suggested that YY rainbow trout are viable to at least the "eyed stage" of development. Inheritance patterns at two loci confirmed all-paternal inheritance. The relatively high yields of completely homozygous androgenetic rainbow trout and the potential for the use of androgenesis in the production of inbred lines and in genetic studies indicate that androgenesis may become a valuable tool in fish research and breeding.     

Identification of candidate genes for in vitro androgenesis induction in maize

Extensive studies have been conducted to understand the genetic control of in vitro androgenesis, but little is know about the genes and the mechanisms involved in the switch that allows an immature pollen grain to develop as an embryo. We have developed two maize isogenic lines with high androgenetic aptitude, named AH5-44 and AH5-49, through backcross and selection from a high-responsive DH229 line on the non-responding A188 line genetic background. The genomic structure of these two lines was precisely described with microsatellite markers. Five regions retained from the parent DH229 highly responsive to androgenesis were localised in both AH5-44 and AH5-49. Sequences expressed on microspores extracted from the four lines were amplified using a cDNA-AFLP protocol. For each line, eight culture conditions were compared: microspores extracted after tassel recovery, after 7 or 14 days in cold room and after 1–4 days of in vitro culture. This genetic and developmental screening allowed us to identify four sequences, including a new HSP70-like candidate gene. Possible implication of the identified sequences in androgenesis response is discussed.Correspondence and request for material (near isogenic line seeds and pre-amplified cDNA-AFLP samples are available for other groups to identify new sequences potentially involved in androgenesis using a larger set of primer combinations on cDNA-AFLP samples) should be addressed to P.B. (e-mail: barret@clermont.inra.fr) Sequence data from this article have been deposited in the EMBL/GenBank data libraries under accession nos. AY222837 (HSP70-like), CD766057 (E9 M1-130), CD766058 (E13 M1-550), and CD766059 (E9 M5-320)     

Evaluation of the combined ability of triticale and secalotriticum by signs of androgenesis in vitro

The combining ability of cultivars and strains of triticale and secalotriticum with respect to the characteristics of androgenesis in anther culture has been analyzed (the 6 x 3 polytester design and parental forms). Nonadditive effects of gene interaction have been found to be prevalent in the genetic control of the characters analyzed in plants with the given genotypes. However, the characteristics of androgenesis were the highest in those hybrid combinations in which genotypes with high values of general combining ability (GCA) and positive effects of specific combining ability (SCA) participated. A program of the analysis of combining ability in triticale and secalotriticum is proposed. The program is aimed at detecting hybrid combinations with the best androgenetic capacities and takes into account both additive and nonadditive effects.     

Development and application of biological technologies in fish genetic breeding

Fish genetic breeding is a process that remolds heritable traits to obtain neotype and improved varieties.For the purpose of genetic improvement,researchers can select for desirable genetic traits,integrate a suite of traits from different donors,or alter the innate genetic traits of a species.These improved varieties have,in many cases,facilitated the development of the aquaculture industry by lowering costs and increasing both quality and yield.In this review,we present the pertinent literatures and summarize the biological bases and application of selection breeding technologies(containing traditional selective breeding,molecular marker-assisted breeding,genome-wide selective breeding and breeding by controlling single-sex groups),integration breeding technologies(containing cross breeding,nuclear transplantation,germline stem cells and germ cells transplantation,artificial gynogenesis,artificial androgenesis and polyploid breeding)and modification breeding technologies(represented by transgenic breeding)in fish genetic breeding.Additionally,we discuss the progress our laboratory has made in the field of chromosomal ploidy breeding of fish,including distant hybridization,gynogenesis,and androgenesis.Finally,we systematically summarize the research status and known problems associated with each technology.     

Assessment of the Combining Ability of Triticale and Secalotriticum with Respect to in Vitro Androgenesis Characteristics

The combining ability of cultivars and strains of triticale and secalotriticum with respect to the characteristics of androgenesis in anther culture has been analyzed (the 6 × 3 polytester design and parental forms). Nonadditive effects of gene interaction have been found to be prevalent in the genetic control of the characters analyzed in plants with the given genotypes. However, the characteristics of androgenesis were the highest in those hybrid combinations in which genotypes with high values of general combining ability (GCA) and positive effects of specific combining ability (SCA) participated. A program of the analysis of combining ability in triticale and secalotriticum is proposed. The program is aimed at detecting hybrid combinations with the best androgenetic capacities and takes into account both additive and nonadditive effects.     

Induced androgenesis in fish: obtaining viable nucleocytoplasmic hybrids

A self-review of long-standing studies of induced androgenesis in fish. The data are provided on the induction of diploid androgenesis in teleost fish via blocking the first cleavage division and the development of the method of dispermic androgenesis in sturgeon fish. Androgenetic nucleocytoplasmic hybrids were obtained using the method of dispermic androgenesis and eggs of previously produced true interspecific hybrids. Specific morphological features of androgenetic hybrids were described and dispermic androgenesis was realized using cryopreserved sperm. The mechanism of sex determination in sturgeon fish is discussed with reference to possible us of androgenesis for restoration of rare and disappearing species.     

Induced Androgenesis in Fish: Obtaining Viable Nucleocytoplasmic Hybrids

A self-review of long-standing studies of induced androgenesis in fish. The data are provided on the induction of diploid androgenesis in teleost fish via blocking the first cleavage division and the development of the method of dispermic androgenesis in sturgeon fishes. Androgenetic nucleocytoplasmic hybrids were obtained using the method of dispermic androgenesis and eggs of previously produced true interspecific hybrids. Specific morphological features of androgenetic hybrids were described and dispermic androgenesis was realized using cryopreserved sperm. The mechanism of sex determination in sturgeon fishes is discussed with reference to possible use of androgenesis for restoration of rare and disappearing species.__________Translated from Ontogenez, Vol. 36, No. 4, 2005, pp. 254–264.Original Russian Text Copyright © 2005 by Grunina, Recoubratsky.     

Comparative Effects of Rye Chromosomes 1R and 5R on Androgenesis in Cultured Anthers of Wheat–Rye Substitution Lines as Dependent on the Line Origin

The effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat–rye substitution lines was studied as dependent on the cultivar origin of the rye chromosomes and on the wheat genome (A or D) subjected to substitution. Chromosome 1R stimulated embryogenesis in anther cultures, while chromosome 5R suppressed it regardless of whether the corresponding wheat chromosomes were substituted in the A or D genome. The effect of chromosome 1R on embryogenesis proved to depend on its cultivar origin. Along with rye chromosome 1R, wheat chromosome 1A was shown to substantially affect total seedling regeneration. Regeneration of green seedlings was dramatically affected both by rye chromosome 1R and by wheat chromosome 1D. The results supported the published data that individual androgenesis parameters (embryogenesis, total plant regeneration, green plant regeneration) are controlled by different genetic mechanisms.     

All-male asexuality: origin and maintenance of androgenesis in the Asian clam Corbicula

Androgenesis is a rare form of asexual male reproduction found in disparate taxa across the Tree of Life. Phylogenetic analyses of mitochondrial genes suggest that androgenesis has arisen repeatedly in the Asian clam genus Corbicula. Two of these androgenetic species have been introduced to North America. Multiple lines of genetic evidence suggest that although nuclear recombination between these two species is rare, mitochondrial genome capture is a frequent consequence of androgenetic parasitism of heterospecific eggs. Egg parasitism may also rarely result in partial nuclear genome capture between closely related species of Corbicula, which provides a mechanism for the otherwise clonal species to avoid the deleterious effects of asexuality. Egg parasitism among congeners may explain why androgenesis has been maintained in Corbicula after fixation and has not yet led to population extinction. This mechanism also provides an explanation for the apparent multiple origins of androgenesis in Corbicula as seen on the mitochondrial DNA phylogeny. We suggest that a single androgenetic lineage may have repeatedly captured mitochondrial genomes (as well as portions of nuclear genomes) from various sexual species, resulting in several distinct androgenetic species with distantly related mtDNA genomes and divergent morphologies.     

Comparative effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat-rye substitution lines dependending on the line origin

The effects of rye chromosomes 1R and 5R on androgenesis in cultured anthers of wheat--rye substitution lines was studied as dependent on the cultivar origin of the rye chromosomes and on the wheat genome (A or D) subjected to substitution. Chromosome 1R stimulated embryogenesis in anther cultures, while chromosome 5R suppressed it regardless of whether the corresponding wheat chromosomes were substituted in the A or D genome. The effect of chromosome 1R on embryogenesis proved to depend on its cultivar origin. Along with rye chromosome 1R, wheat chromosome 1A was shown to substantially affect total seedling regeneration. Regeneration of green seedlings was dramatically affected both by rye chromosome 1R and by wheat chromosome 1D. The results supported the published data that individual androgenesis parameters (embryogenesis, total plant regeneration, green plant regeneration) are controlled by different genetic mechanisms.     

Analysis of genetic control of maize response in anther culture within a diallelic set

The androgenic ability in anther culture in vitro was examined within a diallel set of five maize lines. The complex analysis of genetic variation components, Hayman's diagram, and genetic parameters showed that the anther response is under the control of an additive-dominant genetic system. The examined lines possessed the different correlation of dominant and recessive alleles controlling androgenesis. And 44 was the line with the biggest number of recessive genes, which determined the increase in the trait. The level of dominance varied in different loci, though in the whole the degree of dominance approached to the complete one.     

Genetically identical copies of the mulberry silkworm

Summary Genetically identical copies of the silkworm female obtained via ameiotic parthenogenesis are insignificantly depressed by artificial reproduction, and notwithstanding their isogenous pattern, they show the same variability in quantitative characters as in the heterogenous forms.By means of androgenesis, genetically identical copies of strictly homozygous males were obtained; the latter were produced via meiotic parthenogenesis. The androgenetic clones of these males were transformed by backcrosses into homozygous bisexual lines. Viability and cocoon weight in these lines were higher than those in androgenetic clones of similar genotype, but they were far from the norm due to the depressing effect of semilethals left in them in a homozygous state. An extremely low phenotypical variability of quantitative characters is observed in the isogenous hybrids F₁ obtained from crossing two genetically dissimilar strictly homozygous individuals. These hybrids make excellent material for phenogenetical studies. The female and male isogenous clones have an increased combining ability which is acquired in the course of their selection for high disposition towards complete parthenogenesis. For practical purposes it is proposed to take a female and a male which when mated produce a high-quality family and clone them separately, the first via parthenogenesis, the latter via androgenesis. After mating these reproduced bisexual clones, it will be possible to obtain in successive generations a vast number of families repeating the prominent productivity of the initial family.     

禾本科牧草和草坪草雄核发育与单倍体育种研究进展

禾本科牧草与草坪草在农业可持续发展、城市绿化和生态环境保护方面起着至关重要的作用。近年来, 随着生物技术的发展, 国内外在牧草及草坪草雄核发育与单倍体育种研究方面取得了较大进展。该文在归纳总结该领域研究成果的基础上, 对影响禾本科牧草及草坪草雄核发育与单倍体育种的几个主要因素进行了探讨。大量研究结果表明, 供试材料的基因型是影响培养效率的最主要因素。小孢子发育到单核中期至晚期时有利于提高培养效率。培养前花药经过低温和甘露醇等预处理不但可以提高愈伤组织的诱导效率, 还可提高愈伤组织的质量。适宜的激素种类和配比也是影响培养成败的关键因素。同时, 总结了雄核发育再生植株的倍性鉴定方法和加倍技术, 对单倍体育种技术在禾本科牧草及草坪草育种中的应用前景进行了展望。     

Genetic and nongenetic factors influencing callus induction inMiscanthus sinensis (Anderss.) anther cultures

Miscanthus sinensis is a promising species for biomass production. Influences of genetic and nongenetic factors on androgenesis induction efficiency were investigated. This is the first report on successful induction of pollen-derived callus inM. sinensis. The callus yield was strongly affected by genotype. A beneficial influence of cold pretreatment of spikes on androgenesis induction was observed. The highest yield of calli was obtained in cultures on a modified C17 medium. The results suggest that the high callus yield might be caused by the late culture initiation. The beginning of anther culture at the end of the flowering season caused a 17-fold increase in callus yield, in comparison to culture initiated at the height of the flowering season (August). It is likely, however, that the efficiency of androgenesis induction in the case ofM. sinensis anther culture beginning in October could be related to a positive influence of growing donor plants in conditions of cooler and shorter day, i.e. 11-h day with temperature around 11°C and 13-h night with temperature around 5°C. Results of this study can significantly support the development of effective methods ofM. sinensis haploidization, which could be used in crop improvement by breeding.