Assembly of the zygotic centrosome in the fertilized Drosophila egg

Large-scale cDNA analysis provides several great advantages for genome investigations in rice. Isolated and partially characterized cDNA clones have contributed not only to the construction of an RFLP linkage map and physical maps of the chromosomes but also to investigations of the mechanisms of expression of various isozymes and family genes. The ultimate aim of our large-scale cDNA analysis is to catalogue all the expressed genes of this important cereal, including tissue-specific, developmental stage-specific, and stress-specific genes. As of August 1996, the Rice Genome Research Program (RGP) has isolated and partially sequenced more than 29,000 cDNA clones from various tissues and calluses in rice (Nipponbare, a japonica variety). The sequence data were translated into amino acid sequences for the 3 possible reading frames, and the similarity of these amino acid sequences to known proteins registered in PIR were examined. About 25% of the clones had significant similarities to known proteins. Some of the hit clones showed library-specific distributions, indicating that the composition of the clones in each library reflects, to some extent, the regulation of gene expression specific to differentiation, growth condition, or environmental stress. To further characterize the cDNA clones, including unknown clones, nucleotide sequence similarities of 24,728 clones were analyzed and the clones were classified into around 10,000 independent groups, suggesting that around a half or one third of expressed genes in rice have already been captured. These results obtained from our large-scale cDNA analysis provide useful information related to gene expression and regulation in rice.     

A catalogue of genes in the cardiovascular system as identified by expressed sequence tags

The heart, which is composed of all the cellular components of the circulatory system, is a representative organ for obtaining genes expressed in the cardiovascular system in normal and disease states. We used partial sequences of cDNA clones, or expressed sequence tags, to identify and tag genes expressed in this organ. More than 3500 partial sequences representing > 3000 cDNA clones have been obtained from either the 5' or 3' end of inserts derived from human heart cDNA libraries. Of 3132 cDNA clones analyzed by sequence similarity searching against the GenBank/EMBL data bases, 1485 (47.4%) were found to represent additional, previously undiscovered genes, whereas 267 clones were matched to human brain expressed sequence tags. Clones matching to known genes were catalogued according to their putative structural and cellular functions. cDNA probes from reverse-transcribed mRNAs of fetal and adult hearts were used to study differential expression of selected clones in cardiac development. Cataloguing genes expressed in the heart may provide insight into the genes involved in health and cardiovascular disease.     

Analysis of EST-driven gene annotation in human genomic sequence

We have performed a systematic analysis of gene identification in genomic sequence by similarity search against expressed sequence tags (ESTs) to assess the suitability of this method for automated annotation of the human genome. A BLAST-based strategy was constructed to examine the potential of this approach, and was applied to test sets containing all human genomic sequences longer than 5 kb in public databases, plus 300 kb of exhaustively characterized benchmark sequence. At high stringency, 70%-90% of all annotated genes are detected by near-identity to EST sequence; >95% of ESTs aligning with well-annotated sequences overlap a gene. These ESTs provide immediate access to the corresponding cDNA clones for follow-up laboratory verification and subsequent biologic analysis. At lower stringency, up to 97% of annotated genes were identified by similarity to ESTs. The apparent false-positive rate rose to 55% of ESTs among all sequences and 20% among benchmark sequences at the lowest stringency, indicating that many genes in public database entries are unannotated. Approximately half of the alignments span multiple exons, and thus aid in the construction of gene predictions and elucidation of alternative splicing. In addition, ESTs from multiple cDNA libraries frequently cluster over genes, providing a starting point for crude expression profiles. Clone IDs may be used to form EST pairs, and particularly to extend models by associating alignments of lower stringency with high-quality alignments. These results demonstrate that EST similarity search is a practical general-purpose annotation technique that complements pattern recognition methods as a tool for gene characterization.     

Comparative gene expression profiling by oligonucleotide fingerprinting

The use of hybridisation of synthetic oligonucleotides to cDNAs under high stringency to characterise gene sequences has been demonstrated by a number of groups. We have used two cDNA libraries of 9 and 12 day mouse embryos (24 133 and 34 783 clones respectively) in a pilot study to characterise expressed genes by hybridisation with 110 hybridisation probes. We have identified 33 369 clusters of cDNA clones, that ranged in representation from 1 to 487 copies (0.7%). 737 were assigned to known rodent genes, and a further 13 845 showed significant homologies. A total of 404 clusters were identified as significantly differentially represented (P < 0.01) between the two cDNA libraries. This study demonstrates the utility of the fingerprinting approach for the generation of comparative gene expression profiles through the analysis of cDNAs derived from different biological materials.     

Role of adjuvant chemoradiotherapy in the therapeutic strategy of exocrine adenocarcinoma of the pancreas

Only a few of the methods currently used for identification of differentially expressed genes take advantage of the fact that (near) complete sets of cDNA clones and sequences representing all human and mouse genes will be available for high throughput survey of gene expression. Accordingly, strategies based on hybridization of complex (cDNA or RNA) probes to cDNA microarrays, either on glass slides or on chips, are likely to become increasingly more advantageous. Recognizing, however, that the power of these methods depends upon the availability of such resources, strategies are being pursued to facilitate completion of the ongoing efforts to identify all human and mouse genes.     

Three cDNA clones encoding mouse transplantation antigens: homology to immunoglobulin genes

We constructed cDNA libraries from poly(A)+ RNA isolated from cell lines of two different inbred strains of mice, and screened the libraries with a cDNA clone encoding a human transplantation antigen. Three cDNA clones were identified, sequenced and found to encode amino acid sequences highly homologous to portions of a known mouse transplantation antigen. Comparison of the cDNA sequences of mouse transplantation antigens with the constant region domains of the mouse immunoglobulin mu gene reveals a striking homology, which suggests that the two genes share a common ancestor. Antibody genes undergo DNA rearrangement during B cell differentiation that are correlated with their expression. In contrast, DNA blots with these cDNA probes suggest that the genes for the transplantation antigens are not rearranged in the genomes of liver or embryo cells, which express these antigens, as compared with sperm cells, which do not express these antigens. In Bam Hl-digested liver DNAs from different inbred strains of mice, 10-15 bands of hybridization were found. Accordingly, the genes encoding the transplantation antigens appear to constitute a multigene family with similar gene numbers in different mice.     

An expression profile of genes in human retina and isolation of a complementary DNA for a novel rod photoreceptor protein

PURPOSE: To characterize expression patterns of active genes in human retina, and to isolate novel genes that are uniquely expressed in this tissue. METHODS: A 3'-directed complementary DNA (cDNA) library that faithfully represents the composition of messenger RNA (mRNA) was constructed with an mRNA preparation from a cadaveric human retina. A total of 925 3' terminal sequences were collected by sequencing randomly selected clones, of which 789 were regarded as representing chromosomally coded genes (gene signatures [GS]). GS were compared with each other and searched against GenBank. The resulting expression profile, listing gene species and their frequency, represents the composition of mRNA in the retina. By comparing this expression profile with those obtained from 10 other source cells or tissues, genes uniquely active in the retina were discovered, including some not previously described. A full-sized cDNA corresponding to one of these was isolated and sequenced. Its expression was analyzed by multitissue Northern hybridization and in situ hybridization to the retina specimen. It was then mapped on human chromosomes. RESULTS: In the expression profile, 108 genes were detected recurrently, suggesting that they are very active. Fifty-five of them were identified in GenBank, including the most abundant opsin gene and several other genes for phototransduction. Among the remaining novel and active genes, 19 were considered unique to retina on the basis of their representation status in other expression profiles and in dbEST. One of these was identified as a gene that encodes a novel secretory protein expressed in a rod photoreceptor that maps to chromosome 18p11.3. CONCLUSIONS: The expression profile of active genes in the retina represents the composition of mRNA, which reflects the relative activities of genes in this tissue. A comparison of this expression profile with those obtained with other tissues resulted in isolation of a novel cDNA specifically expressed in the rod photoreceptor. It is anticipated that additional novel genes that are uniquely active in the neural retina may be obtained with the same strategy, leading to further clarification of the biologic or physiological characteristics of this tissue.     

Alteration of gene expression in rat mammary tumors induced by N-methyl-N-nitrosourea

Rodents are susceptible to the effects of chemical carcinogens and have been widely used in the study of mammary-gland carcinogenesis. However, little information is available regarding specific phenotypic changes that occur during mammary-gland carcinogenesis. In this study, subtraction hybridization was used to identify specific genes whose expression in N-methyl-N-nitrosourea (MNU)-induced rat mammary tumors had been altered. mRNA isolated from normal rat mammary tissue and tumors induced by treatment of 50-d-old female rats with MNU (50 mg/kg) was used to produce normal and tumor cDNA libraries. Total inserts prepared from each cDNA library were used to produce a subtracted tumor-normal probe. Differential screening of the tumor library with the subtracted probe and normal cDNA yielded 20 clones that appeared to be differentially expressed. Northern analysis of mRNA isolated from normal mammary tissue and tumor tissue confirmed that four of these clones were differentially expressed. The expression of clones 4 and 15 was greatly increased (13-fold and tenfold, respectively) in most MNU-induced mammary tumors, whereas the expression of clones 10 and 27 was decreased (13-fold and fourfold, respectively). Sequence analysis revealed that clones 15 and 27 were highly homologous to calcyclin and a cDNA isolated from HL-60 cells, respectively. The differential expression of clones 4 and 10 was due to the presence within these clones of retroviral sequences and a fragment of transferrin, respectively. These clones may represent markers useful for studying the development of MNU-induced mammary-gland neoplasias.     

An improved method for the production of antibodies to lipophilic carboxylic hapten using small amount of hapten-carrier conjugate

Normal human diploid cells have a limited proliferative lifespan in in vitro cultures. Changes in gene expression have been examined for understanding control mechanisms of limited proliferative lifespan. and enhanced expression of growth suppressing genes such as p21 was reported in late-passaged cells. We screened genes which were expressed preferentially in mid-passaged cells by the differential plaque screening of the subtracted cDNA libraries prepared from young, life-extended, and immortalized SV40-transformed human fibroblasts. Among isolated clones, ASF/SF2, which was known to affect alternative splicing, was expressed in normal fibroblasts with a peak at mid-passage. Relative expression levels of SC35 and hnRNPA1, which are also known to affect alternative splicing, was also highest at mid-passage. Changes in alternative splicing at mid-passage, if it occurred, may play a crucial role in the process of cellular senescence.     

Analysis of genes encoding highly conserved lysine-rich proteins in Aplysia californica and Saccharomyces cerevisiae

To isolate a gene that can be used as an internal control in studies on gene expression in Aplysia californica neurons, we have characterized a cDNA clone (pKRP-A) isolated on the basis of its high expression in A. californica neurons. This cDNA is of 850 nucleotides and codes for a putative 29-kDa lysine-rich protein. Blotting experiments revealed that the gene is expressed in all tested A. californica tissues, and in individually identified neurons of the abdominal ganglion, suggesting that this gene can be efficiently used as internal control in studies of gene expression. We have also isolated one cDNA and two different genomic clones from yeast libraries that show 59% identity with pKRP-A. Sequence comparison of genomic clones, as well as PCR and Southern blotting experiments, revealed that at least two homologous genes are present in yeast. Northern blotting experiments revealed that the expression of the gene is strongly repressed at 39 degrees C.