Further illusions: On key evolutionary mechanisms that could never fit with Modern Synthesis.

In light of illusions of the Modern Synthesis (MS) listed by Noble (2021a), MS's key concept, that gradual accumulation of gene mutations within microevolution leads to macroevolution, requires reexamination too. In this article, additional illusions of the MS are identified therein caused by the absence of system information and correct history. First, the MS lacks distinction among the two basic types of information: genome-defined system and gene-defined parts-information, as its treatment was based mostly on gene information.

DNA sequence recognition by hybridization to short oligomers: experimental verification of the method on the E. coli genome.

A newly developed method for sequence recognition by hybridization to short oligomers is verified for the first time in genome-scale experiments. The experiments involved hybridization of 15,328 randomly selected 2-kb genomic clones of Escherichia coli with 997 short oligomer probes to detect complementary oligomers within the clones. Lists of oligomers detected within individual clones were compiled into a database.

Discovering distinct genes represented in 29,570 clones from infant brain cDNA libraries by applying sequencing by hybridization methodology.

To discover all distinct human genes and to determine their patterns of expression across different cell types, developmental stages, and physiological conditions, a procedure is needed for fast, mutual comparison of hundreds of thousands (and perhaps millions) of clones from cDNA libraries, as well as their comparison against data bases of sequenced DNA. In a pilot study, 29,570 clones in duplicate from both original and normalized, directional, infant brain cDNA libraries were hybridized with 107-215 heptamer oligonucleotide probes to obtain oligonucleotide sequence signatures (OSSs). The OSSs were compared and clustered based on mutual similarity into 16,741 clusters, each corresponding to a distinct cDNA.

Genome-scale DNA sequence recognition by hybridization to short oligomers.

Recently developed hybridization technology (Drmanac et al. 1994) enables economical large-scale detection of short oligomers within DNA fragments. The newly developed recognition method (Milosavljević 1995b) enables comparison of lists of oligomers detected within DNA fragments against known DNA sequences.

Clone clustering by hybridization.

DNA sequencing by hybridization (SBH) Format 1 technique is based on experiments in which thousands of short oligomers are consecutively hybridized with dense arrays of clones. In this paper we present the description of a method for obtaining hybridization signatures for individual clones that guarantees reproducibility despite a wide range of variations in experimental circumstances, a sensitive method for signature comparison at prespecified significance levels, and a clustering algorithm that correctly identifies clusters of significantly similar signatures. The methods and the algorithm have been verified experimentally on a control set of 422 signatures that originate from 9 distinct clones of known sequence.

Sequencing by hybridization: towards an automated sequencing of one million M13 clones arrayed on membranes.

An immediately applicable variant of the sequencing by hybridization (SBH) method is under development with the capacity to determine up to 100 million base pairs per year. The proposed method comprises six steps: (i) arraying genomic or cDNA M13 clones in 864-well plates (wells of 2 mm); (ii) preparation of DNA samples for spotting by growth of the M13 clones or by polymerase chain reaction (PCR) of the inserts using standard 96-well plates, or plates having as many as 864 correspondingly smaller wells; (iii) robotic spotting of 13,824 samples on an 8 x 12 cm nylon membrane, or correspondingly more, on up to 6 times larger filters, by offset printing with a 96 or 864 0.4 mm pin device; (iv) hybridization of dotted samples with 200-2000 32P-labeled probes comprising 16-256 10-mers having a common 8-mer, 7-mer, or 6-mer in the middle (20 probes per day, each hybridized with 250,000 dots); (v) scoring hybridization signals of 5 million sample-probe pairs per day using storage phosphor plates; and (vi) computing clone order and partial-to-complete DNA sequences using various heuristic algorithms.

DNA sequencing by hybridization: 100 bases read by a non-gel-based method.

Determination of the sequences of human and other complex genomes requires much faster and less expensive sequencing processes than the methods in use today. Sequencing by hybridization is potentially such a process. In this paper we present hybridization data sufficient to accurately read a known sequence of 100 base pairs.

An algorithm for the DNA sequence generation from k-tuple word contents of the minimal number of random fragments.

An algorithm is described for generation of the long sequence written in a four letter alphabet from the constituent k-tuple words in the minimal number of separate, randomly defined fragments of the starting sequence. It is primarily intended for use in sequencing by hybridization (SBH) process- a potential method for sequencing human genome DNA (Drmanac et al., Genomics 4, pp.

Deletion analysis of Duchenne muscular dystrophy using cDNA probes and multiplex PCR.

The authors studied Duchenne muscular dystrophy (DMD) in 14 Yugoslav families with 16 diseased men. All the sixteen patients showed typical phenotypic features of DMD. The linkage analysis was done with five probes 754, C7, PERT87.

Origin of rat beta-globin haplotypes containing three and five genes.

We have reported in rat three adult beta-gene haplotypes containing either five or three genes. Detailed sequence analysis reveals that the leftmost gene is the major gene and that at the opposite end downstream lies the minor gene. All of the genes lying between them are minor-major hybrids indicating their origin by unequal crossing-over.

Reliable hybridization of oligonucleotides as short as six nucleotides.

Although there are many new applications for hybridizing short, synthetic oligonucleotide probes to DNA, such applications have not included determining unknown sequences of DNA. The lack of clear discrimination in hybridization of oligo probes shorter than 11 nucleotides and the lack of a theoretical understanding of factors influencing hybridization of short oligos have hampered the development of their use. We have found conditions for reliable hybridization of oligonucleotides as short as seven nucleotides to cloned DNA or to oligonucleotides attached to filters.

Variant chromosomal arrangement of adult beta-globin genes in rat.

The genomic organization of three haplotypes of beta-globin genes was determined to resolve the question of the number of those genes in rat. Haplotype a, found in inbred strain DA, has three genes or pseudogenes, while haplotypes b, found in AO, Y5 and Wistar strains, and c, found in Wistar strain, have five genes or pseudogenes each. In haplotypes b and c, the first gene is of beta major type and the remaining four are of beta minor type.

Sequencing of megabase plus DNA by hybridization: theory of the method.

A mismatch-free hybridization of oligonucleotides containing from 11 to 20 monomers to unknown DNA represents, in essence, a sequencing of a complementary target. Realizing this, we have used probability calculations and, in part, computer simulations to estimate the types and numbers of oligonucleotides that would have to be synthesized in order to sequence a megabase plus segment of DNA. We estimate that 95,000 specific mixes of 11-mers, mainly of the 5'(A,T,C,G)(A,T,C,G)N8(A,T,C,G)3' type, hybridized consecutively to dot blots of cloned genomic DNA fragments would provide primary data for the sequence assembly.

Limited polymorphism of both classes of MHC genes in four different species of the Balkan mole rat.

We analyzed the restriction fragment length polymorphism of class I and class II MHC genes in DNA from 20 individuals belonging to the four different species of the complex of species of Balkan mole rats Spalax leucodon captured at four different localities in Yugoslavia. All populations were tested with four restriction enzymes and one conserved mouse probe for each of the two classes of MHC genes. The probes employed detect either limited polymorphism of class I genes or lack of polymorphic bands containing class II genes.

Identification of a testis-specific gene from the mouse t-complex next to a CpG-rich island.

We have used an approach based on the observation of CpG-rich regions near the 5' end of many genes to screen a panel of cosmids derived from the t-complex and tested candidate sequences for evidence of transcription in a number of different mouse tissues. One gene so identified is expressed specifically in testicular germ cells and maps to a subregion of the t-complex also containing loci involved in transmission ratio distortion and male sterility. The transcript is first detected during the pachytene stage of the first meiotic division, but is expressed in highest levels in the later haploid spermatogenic stages.

Characterization of two rat globin cDNA clones.

The rat globin gene system is suitable for studying a coordinated regulation of seven genes from two gene families. A rat reticulocyte cDNA globin library has been constructed and two clones analyzed in detail. pBRrg 5 contains alpha while pBRrg X contains beta type sequence.

Identification of procollagen mRNAs transferred to diazobenzyloxymethyl paper from formaldehyde agarose gels.

Poly A containing RNA isolated from embryonic chick calvaria was transferred from 6% formaldehyde 0.75% agarose gels to diazobenzyloxymethyl paper and the paper then hybridized to either nick translated pro alpha 1 collagen cDNA clones, pCg1 or pCg54, or to the nick translated pro alpha 2 collagen cDNA clone, pCg45. From the mobilities of the bands hybridizing most strongly to each, pro alpha 2 collagen mRNA was shown to be slightly larger than pro alpha 1 mRNA; they are 5100 and 4900 nucleotides long respectively.

Construction and characterization of a 2.5-kilobase procollagen clone.

Recombinant bacterial plasmids have been constructed by inserting double-stranded chicken procollagen cDNA sequences linked to chemically synthesized decanucleotides containing HindIII sites into the HindIII site of pBR322. After transformation of Escherichia coli chi1776, colonies were selected by ampicillin resistance and recombinants containing procollagen sequences were identified by colony hybridization to 32P-labeled procollagen cDNA. The inserts from three recombinant plasmids, pCg10, pCg13, and pCg45, were 1200, 2200, and 2550 base pairs long respectively.

Rat b/b anemia: translation of normal and anemic globin mRNA in wheat-germ cell-free system.

Globin mRNAs were isolated from circulating reticulocytes both from rats carrying a homozygous, recessive mutation causing a severe thalassemia-like syndrome and from normal rats. After first identifying the rat globin chains as alpha or beta chains, the translational products primed by both polysomal and nonpolysomal mRNAs in wheat germ 30000 x g supernatant were analyzed: the ratio of alpha to beta globin mRNAs found in polysomes isolated from mutant rats is identical to the ratio of their products synthesized in vivo while the ratio of these mRNAs is quite different in the nonpolysomal fraction, the latter being enriched in alpha globin mRNA. No difference is found in the ratio of alpha and beta globin mRNAs in the polysomal and nonpolysomal RNA isolated from normal rats, both being identical to the ratio of their products synthesized in vivo.