A 38 nt region and its flanking sequences within gag of Friend murine leukemia virus are crucial for splicing at the correct 5′ and 3′ splice sites

The genome of the Friend murine leukemia virus (Fr‐MLV) contains a 5′ splice site (5′ss) located at 205 nt and a 3′ss located at 5489 nt. In our previous studies, it was shown that if the HindIII–BglII (879–1904 bp) fragment within gag is deleted from the proA8m1 vector, which carries the entire Fr‐MLV sequence, then cryptic splicing of env‐mRNA occurs. Here, attempts were made to identify the genomic segment(s) in this region that is/are essential to correct splicing. First, vectors with a serially truncated HindIII–BglII fragment were constructed. The vector, in which a 38 bp fragment (1612–1649 bp) is deleted or reversed in proA8m1, only produced splice variants. It was found that a 38 nt region within gag contains important elements that positively regulate splicing at the correct splice sites. Further analyses of a series of vectors carrying the 38 bp fragment and its flanking sequences showed that a region (1183–1611 nt) upstream of the 38 nt fragment also contains sequences that positively or negatively influence splicing at the correct splice sites. The SphI–NdeI (5140–5400 bp) fragment just upstream of the 3′ss was deleted from vectors that carried the 38 bp fragment and its flanking sequences, which yielded correctly spliced mRNA; interestingly, these deleted vectors showed cryptic splicing. These findings suggest that the 5140–5400 nt region located just upstream of the 3′ss is required for the splicing function of the 38 nt fragment and its flanking sequences.     

Cloning and analysing of 5‘ flanking region of Xenopus organizer gene noggin

Xenopus organizer specific gene noggin possesses nearly all the characterestic properties of the action of organizer to specify the embryonic body acis.To analyze how the maternal inherited factors control its expression pattern,we cloned the 5‘ regulatory region of noggin gene.The 1.5 kb upstream sequense could direct reporter gene to express in vivo and data from deletion analysis indicated that a 229 base pair fragmet is essential for activating noggin expression.We further demonstrated that the response elements within this regulatory region were indeed under the control of growth factor activin and Wnt signaling pathway components.     

Two mutations in the 5′‐flanking region of the KITLG gene are associated with litter size of dairy goats

In this study, Xinong Saanen (SN) and Guanzhong (GZ) dairy goat breeds were used to detect single nucleotide polymorphisms (SNPs) in the 5′‐flanking region of the KITLG gene by DNA sequencing and primer‐introduced restriction analysis–polymerase chain reaction. Two novel SNPs (g.13090G>T and g.13664C>A) were identified (GenBank Accession no. KM658964). Furthermore, g.13090G>T and g.13664C>A loci were closely linked in SN and GZ breeds (r² > 0.33). Association analysis results showed that g.13090G>T and g.13664C>A SNPs significantly affected litter size (P < 0.05). The litter size of individuals with the combined genotype GG/CC from both dairy goat breeds was greater than that of individuals with TT/AA in average parity (P < 0.05). Known biochemical and physiological functions, along with our results, indicated that GG/CC could be used in marker‐assisted selection to choose individuals with greater litter size from both breeds. These results extend the spectrum of genetic variation in the caprine KITLG gene and may contribute to genetic resources and breeding of goats.     

A 66‐bp deletion in growth hormone releasing hormone gene 5′‐flanking region with largemouth bass recessive embryonic lethal

Growth hormone releasing hormone (GHRH) regulates the secretion of growth hormone (GH) in the pituitary gland. A 66‐bp deletion (c.‐923_‐858del) was detected in the 5′‐flanking sequence of the largemouth bass (Micropterus salmoides) GHRH gene. In two cultured random populations of adult individuals (A: n = 170 and B: n = 150), the genotype ratios of +/+:+/? were 2.5:1 and 2.8:1 respectively. Only one ?/? fish was detected. A Largemouth bass family was constructed with two heterozygous individuals (+/?) as parents. The genotype ratio of +/+:+/?:?/? in the filial generation embryos was 1:1.6:0.1 at the neurula and 1:2:0 at hatched larvae stages. This indicated that the 66‐bp deletion was a recessive lethal site and that homozygous individuals (?/?) died off in embryonic development. The growth traits (body weight, body length and body depth) were measured, and the GHRH mRNA expression levels in brain tissue were detected using real‐time PCR. The effects of genotype (+/?) on growth traits and GHRH mRNA expression were not significant. Although the cause of death was not clear, the results hint that the 66‐bp deletion site in GHRH 5′‐flanking sequence significantly affects the livability in largemouth bass embryonic development.     

Sequences from the 5′ flanking region of the ϵ‐globin gene support the relationship of Callicebus with the pitheciins

The purpose of this study was to determine nucleotide sequences from the 5′ flanking region of the ϵ‐globin gene of selected platyrrhine primates and to analyze the data for phylogenetic information and estimated times of divergence. We report new sequence data for two species of New World monkeys, Callicebus torquatus and Pithecia irrorata. We analyzed these data in conjunction with homologous sequences from other primate species. The data support the hypothesis that the titi monkeys (Callicebus) and seed predators (Tribe Pitheciini) form a clade (Subfamily Pitheciinae), and also provide limited support for that subfamily being allied with the atelines. We also present estimated dates of divergence for the Callicebus and pitheciin lineages. Am. J. Primatol. 48:69–75, 1999. © 1999 Wiley‐Liss, Inc.