玉米中抗病基因myb1和NDR1同源序列的荧光原位杂交物理定位

以烟草和拟南芥中的单拷贝抗病基因ｍｙｂ１和ＮＤＲ１作探针,利用荧光原位杂交的方法分别对这两个基因在玉米（Ｚｅａ ｍａｙｓ Ｌ．）和烟草（Ｎｉｃｏｔｉａｎａ ｔａｂａｃｕｍ Ｌ．）、玉米和拟南芥（Ａｒａｂｉｄｏｐｓｉｓ ｔｈａｌｉａｎａ（Ｌ．）Ｈｅｙｎｈ．）中的同源性做了研究。杂交结果表明ｍｙｂ１和ＮＤＲ１的同源序列分别位于玉米第８、５染色体,单个信号位置表明０这两个基因的同源序列在玉米基因组中只有     

Overexpression of the Arabidopsis thaliana MinD1 gene alters chloroplast size and number in transgenic tobacco plants

The Arabidopsis thaliana (L.) Heynh. minD gene (AtMinD1) was isolated and constitutively expressed in tobacco (Nicotiana tabacum L.) plants using the CaMV 35S promoter. Confocal and electron-microscopic analysis of the AtMinD1 transgenic tobacco lines revealed that the chloroplasts were abnormally large and fewer in number compared with wild-type tobacco plants. The abnormal chloroplasts were less prevalent in guard cells than in mesophyll cells. Chloroplast and nuclear gene expression was not significantly different in AtMinD1-overexpressing plants relative to wild-type tobacco plants. Chloroplast DNA copy number was not affected, based on the relative level of the rbcL gene in transgenic plants. Transgenic tobacco plants constitutively overexpressing AtMinD1 were completely normal phenotypically with respect to growth and development, and also displayed normal photosynthetic electron transport rates. These results show that the Arabidopsis MinD1 gene also functions in a heterologous system and confirm the role of the MinD protein in regulation of chloroplast division.     

Isolation and Expression Pattern Analysis of Two Ferritin Genes in Tobacco

For understanding of the ferritin gene expression pattern and the mechanism of iron homeostasis in tobacco (Nicotiana tabaccum L.) plants, two full-length ferritin cDNAs, NtFerl and NtFer2, were isolated from tobacco seedlings and characterized. These cDNAs are 1 214 and 1 125 bp nucleotides and encode 25 1 and 259 amino acid residues, respectively. The deduced amino acid sequences showed that two tobacco ferritins share the same characteristics as the plant ferritins from Arabidopsis, soybean, and maize.Southern blotting analysis indicated that both NtFerl and NtFer2 were probably multicopy genes in the tobacco genome. Northern blotting analysis indicated that iron loading of tobacco plantlets increased the ferritin mRNA abundance and that NtFerl expression was higher and more sensitive to iron than NtFer2expression. Furthermore, NtFerl was expressed in both leaves and roots, whereas NtFer2 was expressed mainly in leaves.     

Isolation and Expression Pattern Analysis of Two Ferritin Genes in Tobacco

For understanding of the ferritin gene expression pattern and the mechanism of iron homeostasis in tobacco (Nicotiana tabaccum L.) plants, two full-length ferritin cDNAs, NtFerl and NtFer2, were isolated from tobacco seedlings and characterized. These cDNAs are 1 214 and 1 125 bp nucleotides and encode 251 and 259 amino acid residues, respectively. The deduced amino acid sequences showed that two tobacco ferritins share the same characteristics as the plant ferritins from Arabidopsis, soybean, and maize. Southern blotting analysis indicated that both NtFerl and NtFer2 were probably multicopy genes in the tobacco genome. Northern blotting analysis indicated that iron loading of tobacco plantlets increased the ferritin mRNA abundance and that NtFerl expression was higher and more sensitive to iron than NtFer2 expression. Furthermore, NtFerl was expressed in both leaves and roots, whereas NtFer2 was expressed mainly in leaves.     

花青素合成基因bz1和bz2在莲藕染色体上的定位

Bronze 1(bz1)是编码UDP葡萄糖类黄酮葡糖基转移酶(UFGT)的基因,UFGT是种子糊粉层中的花青素生物合成酶。Bronze 2(bz2)是另一种花青素生物合成基因,与类黄酮的酰化、糖基化、转运、沉积等有关。以生物素标记的重组质粒pUC19中含有玉米bz1和bz2基因作为探针,与莲藕(Nelumbo nucifera L．)的有丝分裂染色体标本进行荧光原位杂交(fluorescence in situ hybridization,FISH)。结果显示,bz1和bz2基因分别位于莲藕的第2和第4号染色体长臂上,与着丝粒的相对距离分别为79％和67％。这是首次提供莲藕染色体上的FISH杂交信息,从而为增加莲藕染色体组中的遗传标记和建立遗传图谱奠定基础。     

Rearrangement of the genes for the biosynthesis of benzoxazinones in the evolution of Triticeae species

Gramineous plants, including the major agricultural crops wheat (Triticum aestivum L.), rye (Secale cereale L.) and maize (Zea mays L.), accumulate benzoxazinones (Bxs) as defensive compounds. Previously, we isolated cDNAs of the Bx biosynthetic genes in wheat, TaBx2- TaBx5, that encode the enzymes catalyzing the sequential hydroxylation of indole to Bxs. In this study we isolated a cDNA of TaBx1, which encodes the first enzyme of the Bx pathway of wheat. The level of identity (80%) in deduced amino-acid sequence between TaBx1 and the corresponding maize gene Bx1 was as high as those shown between TaBx2- TaBx5 and the corresponding maize genes Bx2- Bx5, respectively. Southern blot analysis using the TaBx1- TaBx5 cDNAs as probes was conducted with aneuploid lines of hexaploid wheat in order to determine sub-chromosomal locations of the five Bx biosynthetic genes in Triticeae species. In wheat, TaBx1 and TaBx2 co-existed in specific regions of chromosomes 4A, 4B and 4D, and TaBx3- TaBx5 were localized together in the distal regions of the short arms of chromosomes 5A, 5B and 5D. TaBx3 and TaBx5 were found to have duplicated loci in the long arm and the short arm of chromosome 5B, respectively. In rye, homoeoloci of TaBx1 and TaBx2 were located on chromosome 7R and those for TaBx3- TaBx5 were located on chromosome 5R. In barley, no Southern blot band was detected with any of the probes under the highly stringent hybridization conditions, suggesting that the non-Bx phenotype of barley is attributable to the loss of Bx biosynthetic genes.     

Interspecies compatibility of NAS1 gene promoters.

Nicotianamine and nicotianamine synthase (NAS) play key roles in iron nutrition in all higher plants. However, the mechanism underlying the regulation of NAS expression differs among plant species. Sequences homologous to iron deficiency-responsive elements (IDEs), i.e., cis-acting elements, are found on the promoters of these genes. We aimed to verify the interspecies compatibility of the Fe-deficiency response of NAS1 genes and understand the universal mechanisms that regulate their expression patterns in higher plants. Therefore, we introduced the graminaceous (Hordeum vulgare L. and Oryza sativa L.) NAS1 promoter::GUS into dicots (Nicotiana tabacum L. and Arabidopsis thaliana L.). Fe deficiency induced HvNAS1 expression in the shoots and roots when introduced into rice. HvNAS1 promoter::GUS and OsNAS1 promoter::GUS induced strong expression of GUS under Fe-deficient conditions in transformed tobacco. In contrast, these promoters only definitely functioned in Arabidopsis transformants. These results suggest that some Fe nutrition-related trans-factors are not compatible between graminaceous plants and Arabidopsis. HvNAS1 promoter::GUS induced GUS activity only in the roots of transformed tobacco under Fe-deficient conditions. On the other hand, OsNAS1 promoter::GUS induced GUS activity in both the roots and shoots of transformed tobacco under conditions of Fe deficiency. In tobacco transformants, the induction of GUS activity was induced earlier in the shoots than roots. These results suggest that the HvNAS1 and OsNAS1 promoters are compatible with Fe-acquisition-related trans-factors in the roots of tobacco and that the OsNAS1 promoter is also compatible with some shoot-specific Fe deficiency-related trans-factors in tobacco.     

Cotton rats (Sigmodon hispidus) and black rats (Rattus rattus) as possible reservoirs of Leishmania spp. in Lara State,Venezuela

A total of 519 wild animals belonging to eleven species were collected during a two year study in a cutaneous leishmaniasis endemic area in Venezuela (La Matica, Lara State). The animals were captured in home-made Tomahawk-like traps baited with maize, bananas or other available local fruits, and parasites were isolated from 27 specimens. Two different species were found naturally infected with flagellates, i.e., cotton rats (Sigmodon hispidus) and black rats (Rattus rattus). Characterization of the parasites using PCR, kDNA restriction pattern and hybridization with species-specific probes revealed the presence of Leishmania (L.) mexicana in three of the black rats and Leishmania (V.) braziliensis in two others. The latter species was also identified in the single positive specimen of S. hispidus. The results suggested both species of animals as possible reservoirs of Leishmania sp.     

Similarity of expression patterns of knotted1 and ZmLEC1 during somatic and zygotic embryogenesis in maize ( Zea mays L.)

Expression of knotted1 ( kn1) and ZmLEC1, a maize homologue of the Arabidopsis LEAFY COTYLEDON1 ( LEC1) was studied using in situ hybridization during in vitro somatic embryogenesis of maize ( Zea mays L.) genotype Hi-II. Expression of kn1 was initially detected in a small group of cells (5-10) in the somatic embryo proper at the globular stage, in a specific region where the shoot meristem is initiating at the scutellar stage, and specifically in the shoot meristem at the coleoptilar stage. Expression of ZmLEC1 was strongly detected in the entire somatic embryo proper at the globular stage, gradually less in the differentiating scutellum at the scutellar and coleoptilar stages. The results of analyses show that the expression pattern of kn1 during in vitro somatic embryogenesis of maize is similar to that of kn1 observed during zygotic embryo development in maize. The expression pattern of ZmLEC1 in maize during in vitro development is similar to that of LEC1 in Arabidopsis during zygotic embryo development. These observations indicate that in vitro somatic embryogenesis likely proceeds through similar developmental pathways as zygotic embryo development, after somatic cells acquire competence to form embryos. In addition, based on the ZmLEC1 expression pattern, we suggest that expression of ZmLEC1 can be used as a reliable molecular marker for detecting early-stage in vitro somatic embryogenesis in maize.     

Two classes of genes in plants

Two classes of genes were identified in three Gramineae (maize, rice, barley) and six dicots (Arabidopsis, soybean, pea, tobacco, tomato, potato). One class, the GC-rich class, contained genes with no, or few, short introns. In contrast, the GC-poor class contained genes with numerous, long introns. The similarity of the properties of each class, as present in the genomes of maize and Arabidopsis, is particularly remarkable in view of the fact that these plants exhibit large differences in genome size, average intron size, and DNA base composition. The functional relevance of the two classes of genes is stressed by (1) the conservation in homologous genes from maize and Arabidopsis not only of the number of introns and of their positions, but also of the relative size of concatenated introns; and (2) the existence of two similar classes of genes in vertebrates; interestingly, the differences in intron sizes and numbers in genes from the GC-poor and GC-rich classes are much more striking in plants than in vertebrates.     

Heterozygosity of Knob-Associated Tandem Repeats and Knob Instability in Mitotic Chromosomes of Zea （Zea mays L. and Z. diploperennis Iltis Doebley）

Knobs are blocks of heterochromatin present on chromosomes of maize （Zea mays L.） and its relatives that have effects on the frequency of genetic recombination, as well as on chromosome behavior. Knob heterozygosity and instability in six maize inbred lines and one Z. diploperennis Iltis Doebley line were investigated using the fluorescence in situ hybridization （FISH） technique with knob-associated tandem repeats （180 bp and 350 bp （TR- 1）） as probes. Signals of seven heterozygous knobs containing 180- bp repeats and of one heterozygous knob containing TR- 1 were captured in chromosomes of all materials tested according to the results of FISH, which demonstrates that the 180-bp repeat is the main contributor to knob heterozygosity compared with the TR- 1 element. In addition, one target cell with two TR- 1 signals on one homolog of chromosome 2L, which was different from the normal cells in the maize inbred line GB57, was observed, suggesting knob duplication and an instability phenomenon in the maize genome.     

Characterization, physical location and expression of the genes encoding calcium/calmodulin-dependent protein kinases in maize (Zea mays L.)

The maize genomic sequence and cDNA encoding a calcium/calmodulin-dependent protein kinase homolog were isolated and identified. The deduced peptide (MCK2) from this cDNA shared high amino acid identity (91.2%) with maize MCK1. These two genes were physically mapped onto chromosomes by fluorescence in situ hybridization using the first introns of the genes as gene-specific probes. While the MCK1 gene was assigned to a locus on the long arm of chromosome 9, the MCK2 gene was localized to a locus on the long arm of chromosome 1. Both of these genes were expressed in roots, leaves, stems and flowers, and the expression patterns of MCK were verified by RNA in situ hybridization. These results indicated that MCK expression is temporally and spatially regulated during maize growth and development.     

Heterozygosity of Knob-Associated Tandem Repeats and Knob Instability in Mitotic Chromosomes of Zea (Zea mays L. and Z. diploperennis Iltis Doebley)

Knobs are blocks of heterochromatin present on chromosomes of maize (Zea mays L.) and its relatives that have effects on the frequency of genetic recombination, as well as on chromosome behavior.Knob heterozygosity and instability in six maize inbred lines and one Z. diploperennis Iltis Doebley line were investigated using the fluorescence in situ hybridization (FISH) technique with knob-associated tandem repeats (180 bp and 350 bp (TR-1)) as probes. Signals of seven heterozygous knobs containing 180-bp repeats and of one heterozygous knob containing TR- 1 were captured in chromosomes of all materials tested according to the results of FISH, which demonstrates that the 180-bp repeat is the main contributor to knob heterozygosity compared with the TR-1 element. In addition, one target cell with two TR-1 signals on one homolog of chromosome 2L, which was different from the normal cells in the maize inbred line GB57,was observed, suggesting knob duplication and an instability phenomenon in the maize genome.     

Two evolutionarily divergent genes encode a cytoplasmic ribosomal protein of Arabidopsis thaliana

Two clones of Arabidopsis thaliana possessing high sequence identity to the yeast gene encoding ribosomal (r) protein L3 were isolated by heterologous DNA hybridization. The coding regions of these two clones have approx. 63% amino acid (aa) sequence identity to the yeast L3 r-protein and 85% aa sequence identity to each other. Both genes are expressed in shoots. The presence of two divergent genes in A. thaliana raises the possibility that the gene products participate in the formation of functionally distinct ribosomes.     

Isolation and characterization of plant genes coding for acetolactate synthase, the target enzyme for two classes of herbicides

Acetolactate synthase (ALS) is the first common enzyme in the biosynthetic pathways to valine, isoleucine, and leucine. It is the target of two structurally unrelated classes of herbicides, the sulfonylureas and the imidazolinones. Genomic clones encoding ALS have been isolated from the higher plants Arabidopsis thaliana and Nicotiana tabacum, using a yeast ALS gene as a heterologous hybridization probe. Clones were positively identified by the homology of their deduced amino acid sequences with those of yeast and bacterial ALS isozymes. The tobacco and Arabidopsis ALS genes have approximately 70% nucleotide homology, and encode mature proteins which are approximately 85% homologous. Little homology is seen between the amino acid sequences of the presumptive N-terminal chloroplast transit peptides. Both plant genes lack introns. The tobacco ALS gene was isolated from a line of tobacco which is resistant to the sulfonylurea herbicides due to an alteration in ALS. The tobacco gene which was isolated codes for an ALS that is sensitive to the herbicides, as assayed by transformation of the gene into sensitive tobacco cells.