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1.
Summary Southern blot analysis of AvaI-digested total cellular DNA from the interfertile species Chlamydomonas eugametos and Chlamydomonas moewusii with a coxI mitochondrial gene probe from Chlamydomonas reinhardtii revealed single hybridizing fragments of 5.0 and 3.5 kb, respectively. The transmission of these mitochondrial DNA physical markers along with that of chloroplast genetic markers for resistance to streptomycin and resistance to erythromycin was studied in the fourth backcrosses of F1 hybrids to one or the other parent. Viability in these backcrosses is high in contrast to the cross C. eugametos x C. moewusii and its reciprocal which are associated with considerable meiotic product lethality. The resulting zygospores were found to transmit the mitochondrial and chloroplast genome markers uniparentally or preferentially from the mating-type-plus parent. Thus the species pair C. eugametos and C. moewusii differs from the pair Chlamydomonas reinhardtii and Chlamydomonas smithii in which mitochondrial genome markers are transmitted uniparentally by the mating-type minus parent, while the chloroplast genome markers are transmitted uniparentally by the opposite parental mating-type (Boynton et al. 1987). 相似文献
2.
Characterization of chloroplast DNA in Chlamydomonas eugametos and C. moewusii and its inheritance in hybrid progeny 总被引:1,自引:0,他引:1
Summary The density, molecular weight, and cellular repetition of DNA molecules associated with the -DNA satellite of the interfertile algae Chlamydomonas eugametos and C. moewusii are reported. The similarities between these values and those for the chloroplast DNA (cpDNA) in the related alga Chlamydomonas reinhardtii indicate that these satellites represent cpDNA. The buoyant densities of C. eugametos and C. moewusii cpDNAs are indistinguishable from one another, as are those of their respective nuclear DNAs. These densities differ slightly from the densities of the homologous components of C. reinhardtii whole cell DNA. All three species differ with respect to additional minor satellite DNAs and low molecular weight DNAs of unknown cellular location.Differences in the Aval and Smal restriction endonuclease fragmentation patterns of C. eugametos and C. moewusii cpDNAs were employed to study the inheritance of cpDNA in an F1 hybrid which had inherited a non-Mendelian streptomycin resistance marker (sr-2) from the C. eugametos mating-type plus (mt
+) parent and in two homoplasmic mitotic segregants from a B 1 hybrid (F1 × C. moewusii) which had been initially heteroplasmic for the resistance marker. Although the cpDNA patterns in the F1 hybrid were similar to those of the C. eugametos
ml
1 parent, important differences were noted which suggest that recombination between C. eugametos and C. moewusii cpDNA had occurred. Homoplasmic streptomycin resistant and sensitive mitotic segregants recovered from the B1 hybrid product reveal Aval restriction patterns similar to those of the respective resistant and sensitive parents. These data are consistent with the hypothesis that the sr-2 marker is located in cpDNA and that C. eugametos and C. moewusii cpDNA sequences can coexist in the same chloroplast and, at least sometimes, segregate without extensive recombination. The transmission of low molecular weight DNAs characteristic of C. moewusii but of unknown cellular origin shows no direct correlation with the transmission of the sr-2 marker. 相似文献
3.
Unlike most polymorphic markers in the Chlamydomonas eugametos and Chlamydomonas moewusii chloroplast DNAs (cpDNAs), the C. moewusii 6- and 21-kb extra sequences and the C. eugametos-specific CeLSU ⋅ 5 intron are transmitted to all of the few viable progeny in reciprocal crosses between the two green algae.
To determine whether this unidirectional transmission pattern is due to gene conversion or to selection for F1 hybrid survival,
we followed the inheritance of the parental alleles at the loci featuring these three deletions/additions and at several other
polymorphic cpDNA loci in zygospore clones derived from high-viability crosses. The great majority of the zygospore clones
examined inherited exclusively the long alleles from the mt
– parent at the loci containing the three optional cpDNA elements, but as expected, they preferentially inherited the markers
from the mt
+ parent at most other loci. Our results therefore indicate that all three optional cpDNA sequences propagate themselves very
efficiently by gene conversion in crosses between strains differing by the presence of these elements. The co-conversion tracts
associated with these sequences are longer (>3 kb) than those previously reported for mobile elements spreading by gene conversion.
Our results also revealed that less efficient gene conversion events occurred at two other cpDNA loci.
Received: 12 February / 14 May 1996 相似文献
4.
Summary Differences in the restriction endonuclease fragmentation patterns of chloroplast DNA (cpDNA) from C. eugametos and C. moewusii have been used to study the inheritance of these DNAs in interspecific hybrids. Analysis of the cpDNAs from ten randomly selected F1 hybrids, in each case revealed cpDNA to be recombinant for AvaI and BstEII restriction sites, although fragments characteristic of C. eugametos, the mt+ parent, were typically found in excess of those for C. moewusii, the mt– parent. In backcrosses between an F
1
mt+ hybrid and C. moewusii mt–, seven randomly selected B1 hybrids showed cpDNA restriction patterns either identical to or highly similar to that of the mt+ parent. We propose that cpDNA molecules are predominantly transmitted by the mt+ parent in both F1 and B1 generations but that selection favors survival of F1 progeny with recombinant chloroplast genomes which avoid interspecific incompatibilities. On the surface, the inheritance of recombinant cpDNA contrasts with the simultaneous uniparental inheritance of two putative chloroplast markers (sr-2 and er-nM1
+). However, it may be that these two markers are by chance associated with cpDNA sequences of the mt+ parent which were selected in all F1 hybrids. 相似文献
5.
Summary During interspecific crosses between Chlamydomonas eugametos and Chlamydomonas moewusii, an optional group I intron of 955 base pairs (CeLSU· 5) in the C. eugametos chloroplast large subunit rRNA gene undergoes a duplicative transposition event which is associated with frequent co-conversion of flanking cpDNA sequences. In the present study, we show that the basic protein of 218 amino acids encoded by CeLSU· 5 could mediate the phenomenon of intron transposition, also called intron homing. We overexpressed the ORF specifying this protein in E. coli using expression vectors that contain a C. moewusii cpDNA sequence encompassing the intron homing site. The expression product was found to exhibit a double-strand DNA endonuclease activity that is specific for the homing site. This activity was detected in vivo by self-linearization of the expression plasmids. 相似文献
6.
Reliable data concerning the transmission of chloroplasts in the Pteridophyta are needed both for phylogenies based on chloroplast
DNA (cpDNA) sequences and in order to study the evolution of this trait in conjunction with the evolution of the life cycle
and the sexual reproduction of land plants. For the first time, this paper describes organelle transmission in the division
Sphenophyta, represented by the extant genus Equisetum. By following the fate of polymorphic cpDNA during three intraspecific reciprocal crosses we found no trace of paternal transmission
in Equisetum variegatum. The seemingly strict maternal transmission of cpDNA in this species suggests that uniparental chloroplast inheritance preceded
the evolution of heterospory in the seed-plant lineage.
Received: 16 July / 5 October 1999 相似文献
7.
Comparative analysis of the mitochondrial genomes of Chlamydomonas eugametos and Chlamydomonas moewusii 总被引:3,自引:0,他引:3
Summary We report the cloning and physical mapping of the mitochondrial genome of Chlamydomonas eugametos together with a comparison of the overall sequence structure of this DNA with the mitochondrial genome of Chlamydomonas moewusii, its closely related and interfertile relative. The C. eugametos mitochondrial DNA (mtDNA) has a 24 kb circular map and is thus 2 kb larger than the 22 kb circular mitochondrial genome of C. moewusii. Restriction mapping and heterologous fragment hybridization experiments indicate that the C. eugametos and C. moewusii mtDNAs are colinear. Nine cross-hybridizing restriction fragments common to the C. eugametos and C. moewusii mtDNAs, and spanning the entirety of these genomes, show length differences between homologous fragments which vary from 0.1 to 2.3 kb. A 600 bp subfragment of C. moewusii mtDNA, within one of these conserved fragments, showed no hybridization with the C. eugametos mtDNA. Of the 73 restriction sites identified in the C. eugametos and C. moewusii mtDNAs, five are specific to C. moewusii, eight are specific to C. eugametos and 30 are common to both species. Hybridization experiments with gene probes derived from protein-coding and ribosomal RNA-coding regions of wheat and Chlamydomonas reinhardtii mtDNAs support the view that the small and large subunit ribosomal RNA-coding regions of the C. eugametos and C. moewusii mtDNAs are interrupted and interspersed with each other and with protein-coding regions, as are the ribosomal RNA-coding regions of C. reinhardtii mtDNA; however, the specific arrangement of these coding elements in the C. eugametos and C. moewusii mtDNAs appears different from that of C. reinhardtii mtDNA. 相似文献
8.
Southern blot hybridization techniques were used to examine the chloroplast DNA (cpDNA) sequences present in the mitochondrial DNAs (mtDNAs) of two Brassica species (B. campestris and B. hirta), two closely related species belonging to the same tribe as Brassica (Raphanus sativa, Crambe abyssinica), and two more distantly related species of crucifers (Arabidopsis thaliana, Capsella bursa-pastoris). The two Brassica species and R. sativa contain roughly equal amounts (12–14 kb) of cpDNA sequences integrated within their 208–242 kb mtDNAs. Furthermore, the 11 identified regions of transferred DNA, which include the 5 end of the chloroplast psaA gene and the central segment of rpoB, have the same mtDNA locations in these three species. Crambe abyssinica mtDNA has the same complement of cpDNA sequences, plus an additional major region of cpDNA sequence similarity which includes the 16S rRNA gene. Therefore, except for the more recently arrived 16S rRNA gene, all of these cpDNA sequences appear to have entered the mitochondrial genome in the common ancestor of these three genera. The mitochondrial genomes of A. thaliana and Capsella bursa-pastoris contain significantly less cpDNA (5–7 kb) than the four other mtDNAs. However, certain cpDNA sequences, including the central portion of the rbcL gene and the 3 end of the psaA gene, are shared by all six crucifer mtDNAs and appear to have been transferred in a common ancestor of the crucifer family over 30 million years ago. 1n conclusion, DNA has been transferred sequentially from the chloroplast to the mitochondrion during crucifer evolution and these cpDNA sequences can persist in the mitochondrial genome over long periods of evolutionary time. 相似文献
9.
Summary The Chlamydomonas monoica mutant allele mtl-1, is associated with the formation of nonviable zygospores following self-mating of the mutant strain. Furthermore, mtl-1 heterozygote populations show a 50% reduction in germination frequency and no transmission of a chloroplast antibiotic resistance marker carried by the mtl-1 parent. To determine whether the effects on zygospore viability and chloroplast gene transmission resulted from the direct involvement of the mtl-1 locus in the control of mt
+-directed uniparental inheritance of chloroplast DNA (cpDNA), we have used the DNA-specific fluorochrome DAPI to follow the fate of cpDNA during the maturation of zygotes. Throughout the first few hours after the initial fusion of gametes, the young zygotes show DAPI-fluorescent nucleoids distributed symmetrically around the region of nuclear fusion, and presumably located within both of the parental chloroplasts. Wild-type and mtl-1 mutant zygotes show similar early staining patterns. As the zygotes age, the staining patterns become asymmetric for the wildtype population, with all of the visible cytoplasmic nucleoids restricted to one side of the zygote. In contrast, mtl-1 homozygotes appear to lose cytoplasmic nucleoids from both sides of the zygote simultaneously and within 24 h are apparently devoid of cpDNA. By introducing a mutation which arrests cell fusion (and prevents plastid fusion), we can show that (1) the asymmetric nucleoid distribution in wildtype zygotes results from the loss of nucleoids from one gamete in each mating event, and (2) the additional loss of cpDNA in mtl-1 homozygotes does not require contact between parental plastids (thus the nuclease responsible for cpDNA degradation is not sequestered within the chloroplast of one gamete). We propose that the mtl-1 mutant strain is defective for a process which normally protects cpDNA of mt
+ origin. 相似文献
10.
This paper describes the analysis of chloroplast (cp) DNA and mitochondrial (mt) DNA in 21 somatic hybrid calli of Solanum tuberosum and Nicotiana plumbaginifolia by means of Southern-blot hybridization. Each of these calli contained only one type of cpDNA; 14 had the N. plumbaginifolia (Np) type and seven the S. tuberosum (St) type. N. plumbaginifolia cpDNA was present in hybrids previously shown to contain predominantly N. plumbaginifolia chromosomes whereas hybrids in which S. tuberosum chromosomes predominated possessed cpDNA from potato. We have analyzed the mtDNA of these 21 somatic hybrid calli using four restriction enzyme/probe combinations. Most fusion products had only, or mostly, mtDNA fragments from the parent that predominated in the nucleus. The hybrids containing mtDNA fragments from only one parent (and new fragments) also possessed chloroplasts from the same species. The results suggest the existence of a strong nucleo-cytoplasmic incongruity which affects the genome composition of somatic hybrids between distantly related species. 相似文献
11.
Cryptococcus neoformans is an encapsulated pathogenic yeast producing meningoencephalitis. Two primary strains in genetic studies, serotype A H99 and serotype D JEC21, possess dramatic differences in virulence. Since it has been shown that mitochondrial gene expression is prominent at the site of the infection and there are significant differences between mitochondrial gene structure and regulation between the serotype A and D strains, this study used AD hybrids to move serotype A and D mitochondria under different genomic influences. When the serotype D MATa strain is involved in the mating crosses, there is uniparental transmission of mitochondrial DNA, but with the serotype A MATa strain, mitochondrial DNA can be inherited from either parent and recombination in the mitochondrial genome may also occur. In virulence studies between serotype A and D strains, it was found that the primary genetic control of the virulence composite for growth in the central nervous system is encoded in the nuclear DNA and not through mitochondrial DNA. 相似文献
12.
Summary The chloroplast genomes from the interfertile green algae Chlamydomonas eugametos and C. moewusii have been compared in their overall sequence organization. Physical mapping of Aval, BstEII and EcoRI restriction sites on the C. moewusii chloroplast genome revealed that this 292 kilobase-pair (kbp) genome is 49 kbp larger than the C. eugametos genome. Heterologous fragment hybridizations indicated the same order of common sequence elements on the two algal genomes. Almost all of the 49 kbp size difference is accounted for by the presence of two large extra sequences in C. moewusii: a 21 kbp sequence in the inverted repeat and a 5.8 kbp sequence in the single copy-region bordering the 16S ribosomal RNA (rRNA) genes. In addition to these two major deletion/addition differences, 42 restriction site and fragment length differences (ranging from 100 to 500 base pairs) were mapped on the two algal genomes. Surprisingly, the greatest density of these differences was found to be confined within the inverted repeat, one of the most conserved regions of land plant chloroplast genomes. 相似文献
13.
Kinetoplast DNA minicircles are inherited from both parents in genetic crosses of Trypanosoma brucei
In the order Kinetoplastida, genetic exchange has been demonstrated only in the genus Trypanosoma. Analysis of kinetoplast DNA (kDNA) in genetic crosses of T. brucei has shown that whereas maxicircles are inherited uniparentally, minicircles are inherited from both parents. This result
was confirmed for a new cross of T. b. brucei and T. b. rhodesiense by restriction enzyme digestion and Southern analysis of purified kDNA. By hybridisation with small minicircle-derived probes,
we could demonstrate the presence of particular parental minicircles in the kDNA of hybrid progeny clones. All hybrid clones
had inherited two minicircles from one parent despite two of the four clones having maxicircles from the other parent. The
results suggest that rather than small-scale exchange of minicircles between parental networks, gross breakdown and reassembly
of the minicircle network occurs during genetic exchange.
Received: 26 October 1996 / Accepted: 12 December 1996 相似文献
14.
Summary Cultivar variability for levels of plastid DNA (cpDNA) in the germ cell line of germinated pea pollen has suggested the possibility of biparental plastid transmission. In order to examine this possibility further, RFLP markers were used to follow the transmission of cpDNA from parents to their F1 offspring. Results from these inheritance studies clearly indicate the presence of only maternal plastid markers in the F1 progeny of each cross examined, irrespective of the pollen cpDNA levels of the paternal parent. The same result is obtained for F1 progeny produced from crosses using pollen characterized by comparatively high cpDNA content, even when offspring are sampled at early developmental stages. Thus, there appears to be little correspondence between pollen cytological data indicating potential paternal plastid transmission and data from molecular marker studies confirming that P. sativum generally follows a uni-parental-maternal mode of plastid inheritance. Insufficient F1 progeny were examined to exclude instances of trace biparentalism. 相似文献
15.
In the great majority of sexual eukaryotes, mitochondrial genomes are inherited almost exclusively from a single parent. While
many hypotheses have been proposed to explain this phenomenon, very little is known about the genetic elements controlling
uniparental mitochondria inheritance. In the bipolar, isogamous basidiomycete yeast Cryptococcus neoformans, progeny from crosses between strains of mating type a (MATa) and mating type α (MATα) typically inherit mitochondrial DNA
(mtDNA) from the MATa parent. We recently demonstrated that a mating type α (MATα)-specific gene SXI1α, controls mitochondrial inheritance in C. neoformans. Here, we show that another homeodomain gene SXI2a in the alternative mating type MATa is also required for uniparental mtDNA inheritance in this fungus. Disruption of SXI2a resulted in biparental mtDNA inheritance in the zygote population with significant numbers of progeny inheriting mtDNA from
the MATa parent, the MATα parent, and both the MATa and the MATα parents. In addition, progeny from same-sex mating between
MATα strains showed a biparental mitochondrial inheritance pattern. Our results suggest that SXI1α and SXI2a coordinately control uniparental mitochondrial inheritance in C. neoformans. 相似文献
16.
The inheritance of mitochondrial DNA (mtDNA) in sexual crosses was investigated to expand our understanding of the large
genetic divergence in mtDNAs among natural populations of the higher basidiomycete Pleurotus ostreatus. Reciprocal crosses were made between compatible monokaryons with distinguishable mtDNA restriction fragment length polymorphisms
(PFLPs). Almost all of the dikaryons produced by these crosses had mtDNA genotypes from one of the parental monokaryons. However,
for dikaryons isolated from the junction-zone of crossed monokaryons, recombinant mitochondrial genomes commonly appeared.
These results showed that P. ostreatus mtDNA can be inherited biparentally, via mtDNA recombination, as well as uniparentally. Further, it was suggested that mtDNA
recombination may be an important source of variation in mitochondrial genomes among natural populations of P. ostreatus.
Received: 4 June / 14 August 1996 相似文献
17.
Summary
Chlamydomonas reinhardii diploids homozygous for the plus mating-type (mt
+) allele were constructed via polyethylene glycol (PEG)-induced cell fusion to investigate the transmission of chloroplast genes.We used two methods to determine whether the fusion products (PEG diploids) had inherited chloroplast markers uniparentally or biparentally. One method (multiple clone analysis) was found to markedly improve the detection of biparental transmission. With this method the frequency of biparental PEG-induced diploids was comparable to that seen in sexual diploids. Multiple clone analysis also demonstrated that fusion products which showed biparental inheritance were an extremely heterogeneous group.In some crosses, pre-treatment of one parent with isolated flagella from cells of the opposite mating type was used. This pre-treatment has been reported to promote chloroplast gene transmission from the mt
+ parent in diploids produced by PEG fusion (Adams 1982). In our crosses flagellar pretreatment had no significant effect on chloroplast gene transmission or recombination frequences. A significant bias was found for the date a cross was performed, but neither parent preferentially transmitted its alleles in all crosses. This indicates the necessity of comparing data from treated and control crosses done on the same day. We conclude from our data that separate hypotheses are not required to explain biparental inheritance in sexual versus PEG-induced diploids. The absence of biased parental allelic ratios with PEG-induced biparental diploid clones underscores their usefulness for the study of biparental gene transmission.Supported by National Institutes of Health Fellowship F32 GM085 34 相似文献
18.
Summary Minute colony mutations in C. reinhardtii are induced with 100% efficiency by intercalating dyes such as acriflavin and ethidium bromide. These mutants form small colonies on petri plates because they undergo only 8–9 mitotic divisions before growth ceases. In liquid media without the dye the mutants show gross alterations in mitochondrial structure and function. Here we demonstrate that induction of minute mutations is accompanied by the specific loss of mitochondrial DNA. We also provide evidence that the transmission of the minute colony phenotype in crosses can be explained in terms of uniparental transmission of mitochondrial DNA by the mt
– parent. 相似文献
19.
Genomic imprinting: potential function and mechanisms revealed by the Prader-Willi and Angelman syndromes 总被引:4,自引:0,他引:4
The Prader-Willi (PWS) and Angelman (AS) syndromes are two clinically
distinct syndromes which result from lack of expression of imprinted genes
within chromosome 15q11-q13. These two syndromes result from 15q11-q13
deletions, chromosome 15 uniparental disomy (UPD), imprinting centre
mutations and, for AS, probable mutations in a single gene. The
differential phenotype results from a paternal genetic deficiency in PWS
patients and a maternal genetic deficiency in AS patients. Within
15q11-q13, four genes (SNRPN, IPW, ZNF127, FNZ127) and two expressed
sequence tags (PAR1 and PAR5) have been found to be expressed only from the
paternally inherited chromosome, and therefore all must be considered
candidate genes involved in the pathogenesis of PWS. A candidate AS gene
(UBE3A) has very recently been identified. The mechanisms of imprinted gene
expression are not yet understood, but it is clear that DNA methylation is
involved in both somatic cell expression and inheritance of the imprint.
The presence of DNA methylation imprints that distinguish the paternally
and maternally inherited alleles is a common characteristic of all known
imprinted genes which have been studied extensively, including SNRPN and
ZNF127. Recently, several PWS and AS patients have been found that have
microdeletions in a region upstream of the SNRPN gene referred to as the
imprinting centre, or IC. Paternal IC deletions in PWS patients and
maternal IC deletions in AS patients result in uniparental DNA methylation
and uniparental gene expression at biparentally inherited loci. The IC is a
novel genetic element which controls initial resetting of the parental
imprint in the germline for all imprinted gene expression over a 1.5-2.5 Mb
region within chromosome 15q11-q13.
相似文献
20.
Nishimura Y Misumi O Kato K Inada N Higashiyama T Momoyama Y Kuroiwa T 《Genes & development》2002,16(9):1116-1128
Although the active digestion of mating-type minus (mt-) chloroplast DNA (cpDNA) in young zygotes is considered to be the basis for the uniparental inheritance of cpDNA in Chlamydomonas reinhardtii, little is known about the underlying molecular mechanism. One model of active digestion proposes that nucleases are either synthesized or activated to digest mt- cpDNA. We used a native-PAGE/in gelo assay to investigate nuclease activities in chloroplasts from young zygotes, and identified a novel Ca(2+)-dependent nuclease activity. The timing of activation (approximately 60-90 min after mating) and the localization of the nuclease activity (in mt- chloroplasts) coincided with the active digestion of mt- cpDNA. Furthermore, the activity of the nuclease was coregulated with the maturation of mating-type plus (mt+) gametes, which would enable the efficient digestion of mt- cpDNA. Based on these observations, we propose that the nuclease (designated as Mt(+)-specific DNase, MDN) is a developmentally controlled nuclease that is activated in mt+ gametes and participates in the destruction of mt- cpDNA in young zygotes, thereby ensuring uniparental inheritance of chloroplast traits. 相似文献