Legumin heterogeneity inPisum

Analyses of heterogeneity in legumin subunit patterns, legumin precursor polypeptides, and restriction fragments containing legumin genes have shown thatPisum (pea) genotypes vary in the extent of gene and polypeptide divergence but not in the degree of gene reiteration. Genotypes containing single and multiple ^M subunits had the same numbers of legumin genes. The potential value of this heterogeneity in genetical analyses is outlined.This work was supported by the Agricultural and Food Research Council via a grant-in-aid to the John Innes Institute. We acknowledge financial support from Agrigenetics Corporation, Boulder, Colorado, and from the CEC Biomolecular Engineering Programme, Contract GBI-4-113-UK.     

Plausible Emergence and Self Assembly of a Primitive Phospholipid from Reduced Phosphorus on the Primordial Earth

How life arose on the primitive Earth is one of the biggest questions in science. Biomolecular emergence scenarios have proliferated in the literature but accounting for the ubiquity of oxidized (+?5) phosphate (PO₄^3?) in extant biochemistries has been challenging due to the dearth of phosphate and molecular oxygen on the primordial Earth. A compelling body of work suggests that exogenous schreibersite ((Fe,Ni)₃P) was delivered to Earth via meteorite impacts during the Heavy Bombardment (ca. 4.1–3.8 Gya) and there converted to reduced P oxyanions (e.g., phosphite (HPO₃^2?) and hypophosphite (H₂PO₂^?)) and phosphonates. Inspired by this idea, we review the relevant literature to deduce a plausible reduced phospholipid analog of modern phosphatidylcholines that could have emerged in a primordial hydrothermal setting. A shallow alkaline lacustrine basin underlain by active hydrothermal fissures and meteoritic schreibersite-, clay-, and metal-enriched sediments is envisioned. The water column is laden with known and putative primordial hydrothermal reagents. Small system dimensions and thermal- and UV-driven evaporation further concentrate chemical precursors. We hypothesize that a reduced phospholipid arises from Fischer–Tropsch-type (FTT) production of a C8 alkanoic acid, which condenses with an organophosphinate (derived from schreibersite corrosion to hypophosphite with subsequent methylation/oxidation), to yield a reduced protophospholipid. This then condenses with an α-amino nitrile (derived from Strecker-type reactions) to form the polar head. Preliminary modeling results indicate that reduced phospholipids do not aggregate rapidly; however, single layer micelles are stable up to aggregates with approximately 100 molecules.

     

Dissection of discrete kinetic events in the binding of antibiotics and substrates to the galactose-H+ symport protein,GalP, ofEscherichia coli

GalP is the membrane protein responsible for H⁺-driven uptake of D-galactose intoEscherichia coli. It is suggested to be the bacterial equivalent of the mammalian glucose transporter, GLUT1, since these proteins share sequence homology, recognise and transport similar substrates and are both inhibited by cytochalasin B and forskolin. The successful over-production of GalP to 35–55% of the total inner membrane protein ofE. coli has allowed direct physical measurements on isolated membrane preparations. The binding of the antibiotics cytochalasin B and forskolin could be monitored from changes in the inherent fluorescence of GalP, enabling derivation of a kinetic mechanism describing the interaction between the ligands and GalP. The binding of sugars to GalP produces little or no change in the inherent fluorescence of the transporter. However, the binding of transported sugars to GalP produces a large increase in the fluorescence of 8-anilino-1-naphthalene sulphonate (ANS) excited via tryptophan residues. This has allowed a binding step, in addition to two putative translocation steps, to be measured. From all these studies a basic kinetic mechanism for the transport cycle under non-energised conditions has been derived. The ease of genetical manipulation of thegalP gene inE. coli has been exploited to mutate individual amino acid residues that are predicted to play a critical role in transport activity and/or the recognition of substrates and antibiotics. Investigation of these mutant proteins using the fluorescence measurements should elucidate the role of individual residues in the transport cycle as well as refine the current model.Abbreviations GalP galactose-H⁺ transporter - AraE arabinose-H⁺ transporter - GLUT1 human erythrocyte glucose transporter requests for offprints: Krebs Institute for Biomolecular Research, Department of Molecular Biology and Biotechnology, University of Sheffield, Sheffield S10 2UH, UK     

Genetic interactions suggest that Danforth's short tail (Sd) is a gain-of-function mutation

Danforth's short tail (Sd) is a semidominant mutation on mouse chromosome 2 that acts cell autonomously in the notochord and leads to its disintegration, and thus causes severe defects in somite patterning and vertebral column development. The molecular nature of the Sd gene and mutation is unknown, and it is unclear whether Sd is a loss-of-function mutation and the semidominant inheritance of the Sd phenotype is due to haploinsufficiency, or whether Sd represents a gain-of-function mutation in a gene essential for notochord development and maintenance. Here, we report on the genetic interaction between Sd and an insertional mutation called Etl4^lacZ, which provides genetic evidence that Sd is a gain-of-function mutation. Etl4^lacZ is an enhancer trap insertion, which gives rise to lacZ expression in distinct cell types, including the notochord. In homozygosity, the lacZ insertion leads to abnormal vertebrae in the caudal part of the vertebral column. Etl4^lacZ maps approximately 0.75 cM distal to Sd, and in double heterozygotes modifies the Sdphenotype contrarily, depending on the chromosomal configuration of the Sd and Etl4^lacZ mutations: when Etl4^lacZ is present on the chromosome wild type for Sd (Sd +/+ Etl4^lacZ; trans configuration), the Sd phenotype is enhanced, i.e., vertebral malformations extend to more anterior positions and the vertebral body of the axis is further reduced. Conversely, when Etl4^lacZ is present on the same chromosome as Sd (Sd Etl4^lacZ /+ +; cis configuration), the Sd phenotype is attenuated, i.e., vertebral malformations are confined to more posterior levels, and the dens axis, which is severely reduced or absent in Sd heterozygotes, is restored. The different effect of the Etl4^lacZ insertion on Sd, depending on its presence in trans or cis, suggests a direct interaction of the transgene insertion with the Sd gene. Additionally, the attenuation of the Sd phenotype by Etl4^lacZ in cis suggests that Sd is a gain-of-function mutation and lends support to the idea that Etl4^lacZ is a new allele of Sd. Dev. Genet. 23:86–96, 1998. © 1998 Wiley-Liss, Inc.     

Genetics of complement C4. Two homoduplication haplotypes C4S C4S and C4F C4F in a family

Summary A family in which two homoduplicated C4 haplotypes (or supergenes) segregate is described. One haplotype C4F ^* 3 C4F ^*2.2 is composed of two C4F alleles and the other C4S ^* 5.1 C4S ^*1 of two C4S alleles. The C4F duplication haplotype is a partial inhibitor of the Rodgers antigen, and judged from our family and population material, it seems to be rather frequent and associated with HLAB ^*35, Bf ^* F, and HLAD/DR ^*1. The C4S duplication haplotype is Rg(a-) and is not identified in individuals without another S, Ch(a+) variant.This work was supported by grant No 12-1727 from the Danish Medical Research Council     

Low-Temperature conformation of Mg2+-Poly(U) in D2O as revealed by IR and Raman Spectroscopy and by normal-mode analysis treatment

Infrared and Raman spectra of the Mg²⁺ salt of poly(U) in D₂O were recorded in the 1600-1800 cm^?1 region and between 1 and 20C. The ir spectra showed a melting curve similar to the uv melting curves with a temperature of transition of about 6.5°C. This spectral change is assumed to be associated with the formation of the secondary structure of Mg²⁺-poly(U) in D₂O at this temperature. Three double-helical and two triple-helical structures were used as inputs to compute the normal modes of vibration. A double-helical structure was found to give the best agreement with the observations. Knowledge of the C=0 eigenvectors, and of the expression for transition probability from quantum mechanics, was used to explain the so far unanswered question of H. T. Miles [(1964) Proc. Natl. Acad. Sci. USA 51, 1104–1109; (1980) Biomolecular Structure, Conformation, Function and Evolution, Pergamon, Oxford, pp. 251–264] as to why there is an increase in the ir vibrational wave number of a carbonyl band when that group is H-bonded to another polynucleotide chain in a helix. Such considerations also explain why a predicted band at about 1648 cm^?1 is not to be seen in the ir spectra but is present in the Raman spectra. The model incorporating the C?O transition dipole-dipole coupling interaction is able to explain also the observed higher intensity of the higher wave-number ir band. The experimental results demonstrate that the complete picture of vibrational dynamics of Mg²⁺-poly(U) in D₂O is obtained only by looking simultaneously at ir and Raman spectra and not at only one of them. Weak ir bands were found to be as useful as the strong ones in understanding structure and vibrational dynamics. On the bases of our ir and Raman spectra, of the normal-mode analyses, and of the literature data, it is concluded that Mg²⁺-poly(U) in D₂O is present in a double-helical structure at temperatures below the temperature of transition, whereby the uracil residues are paired according to arrangement (a) (see Fig. 1). This structure is rodlike and arises by refolding of one poly(U) chain. The computations show that no normal mode is associated with a single C?O group vibration; all C?O group vibrations are heavily mixed motions of various C?O groups.     

Sulfate influx across the rabbit ileal brush border membrane: Sodium and proton dependence,and substrate specificities

Summary In intact ileal mucosa, uptake of SO₄ across the brush border membrane requires the presence of Na and is saturable, withK1/2=1.3mm at 140mm Na (P.L. Smith, S.A. Orellana & M. Field, 1981.J. Membrane Biol. 63:199–206). The present study examines the substrate specificities and transport stoichiometry of the Na-dependent SO₄ uptake process. The effects of variations in medium anion and cation composition on lumen-to-epithelium influx of SO₄ (J _me ^SO4 ) were determined under short-circuit conditions.J _me ^SO4 is inhibited by thiosulfate, but not by phosphate, methylsulfate, vanadate or taurocholate. Cl is weakly inhibitory. Uptake of SO₄ is poorly supported by Li, and is unaffected by K, indicating a specific dependence on Na. At low SO₄ concentration (0.22mm),J _me ^SO4 is a hyperbolic function of medium Na concentration; the corresponding Hill plot is linear with a slope of 1.0, suggesting a transport stoichiometry of 1 Na: 1 SO₄. At high SO₄ concentration (6.7mm), the Na-dependent SO₄ velocity curve is sigmoidal and yields a Hill plot which is again linear but has a slope of 1.56, suggesting transport of more than 1 Na per SO₄. SO₄ uptake in presence of Na exhibits a dependence on medium pH. At 0.22mm SO₄ and 140mm Na,J _me ^SO4 was doubled by lowering pH from 7.4 to 6.8. However, at 6.7mm SO₄ and 140mm Na, changing pH had no effect onJ _me ^SO4 over the range 6.8 to 8.5. The pH dependence ofJ _me ^SO4 at 6.7mm SO₄ was restored when medium Na was lowered to 3mm, suggesting that pH sensitivity is a function of the concentration of preformed NaSO ₄ ^– ion pair. The results suggest that SO₄ influx across the ileal brush border occurs by electroneutral Na⁺/NaSO ₄ ^– or Na⁺/H⁺/SO ₄ ^2– cotransport, the former being favored by high concentrations of Na and SO₄.     

The functional significance of amylase polymorphism in Drosophila melanogaster VI. Duration of development and amylase activity in larvae when starch is a limiting factor

Two stocks homozygous for the amylase alleles Amy ¹ and Amy ^{4, 6} were compared for amylase activity during larval development and duration of larval development on a food medium on which addition of starch promotes survival. The two stocks have the same development time when reared under optimal food conditions. Then, the higher amylase activity which characterizes the Amy ^{4, 6} stock appears far into the third instar. On the food used in the present experiments in which starch is a limiting factor for survival, the activity difference appears already in the 2nd instar. Moreover, Amy ^{4, 6} has a duration of larval development which is almost one day shorter than the Amy ¹ stock. This would result in a large selective advantage for the Amy ^{4, 6} stock when brought in competition on this food with the Amy ¹ stock.These rrsults support the explanation given for the results of earlier competition experiments between the Amy ¹ and the Amy ^{4, 6} stock, that the relative fitness of the stock with the high amylase activity improves when starch is added to a food medium in which it is a limiting factor for survival because the Amy ^{4, 6} stock by virtue of its higher amalyse activity utilizes starch better than its competitor.     

Salinimonas lutimaris sp. nov., a polysaccharide-degrading bacterium isolated from a tidal flat

A Gram-negative, non-motile, non-endospore-forming bacterial strain, designated DPSR-4^T, was isolated from a tidal flat sediment on the southern coast of Korea. Strain DPSR-4^T grew optimally at 25–30°C, at pH 7.0–7.5 and in the presence of 2% (w/v) NaCl. A Neighbour-Joining phylogenetic tree based on 16S rRNA gene sequences revealed that strain DPSR-4^T clustered with Salinimonas chungwhensis BH030046^T by a high bootstrap resampling value of 99.7%. Strain DPSR-4^T exhibited 96.2% 16S rRNA gene sequence similarity to that of S. chungwhensis BH030046^T and 93.7–96.6% sequence similarity to the sequences of type strains of Alteromonas species. Strain DPSR-4^T contained Q-8 as the predominant ubiquinone and iso-C_15:0 2-OH and/or C_16:1 ω7c, C_16:0 and C_18:1 ω7c as the major fatty acids. The major polar lipids detected in strain DPSR-4^T and S. chungwhensis KCTC 12239^T were phosphatidylglycerol, phosphatidylethanolamine and an unidentified phospholipid. The DNA G+C content was 53.4 mol%. Differential phenotypic properties and phylogenetic distinctiveness of strain DPSR-4^T demonstrated that this strain is distinguishable from the sole recognized species of the genus Salinimonas, S. chungwhensis. On the basis of phenotypic, chemotaxonomic and phylogenetic data, strain DPSR-4^T is considered to represent a novel species of the genus Salinimonas, for which the name Salinimonas lutimaris sp. nov. is proposed. The type strain is DPSR-4^T (KCTC 23464^T, CCUG 60743^T).     

Differential effect of ammonium on the induction of nitrate and nitrite reductase activities in roots of barley (Hordeum vulgare) seedlings

The effect of exogenous NH₄⁺ on the induction of nitrate reductase activity (NRA; EC 1.6.6.1) and nitrite reductase activity (NiRA; EC 1.7.7.1) in roots of 8-day-old intact barley (Hordeum vulgare L.) seedlings was studied. Enzyme activities were induced with 0.1, 1 or 10 mM NO₃⁺ in the presence of 0, 1 or 10 mM NH₄⁺, Exogenous NH₄⁺ partially inhibited the induction of NRA when roots were exposed to 0.1 mM, but not to 1 or 10 mM NO₃⁺, In contrast, the induction of NiRA was inhibited by NH₄⁺ at all NO₃⁺ levels. Maximum inhibition of the enzyme activities occurred at 1.0 mM NH₄⁺ Pre-treatment with NH₄⁺ had no effect on the subsequent induction of NRA in the absence of additional NH₄⁺ whereas the induction of NiRA in NH₄⁺-pretreated roots was inhibited in the absence of NH₄⁺ At 10 mM NO₃⁺ L-methionine sulfoximine stimulated the induction of NRA whether or not exogenous NH₄⁺ was present. In contrast, the induction of NiRA was inhibited by L-methionine sulfoximine irrespective of NH₄⁺ supply. During the postinduction phase, exogenous NH₄⁺ decreased NRA in roots supplied with 0.1 mM but not with 1mM NH₃⁺ whereas, NiRA was unaffected by NH₄⁺ at either substrate concentration. The results indicate that exogenous NH₄⁺ regulates the induction of NRA in roots by limiting the availability of NO₃⁺. Conversely, it has a direct effect, independent of the availability of NO₃⁺, on the induction of NiRA. The lack of an NH₄⁺ effect on NiRA during the postinduction phase is apparently due to a slower turnover rate of that enzyme.     

Substituent Effect on Photosynthesis of N2-α-Substituted Benzyl-N4-alkyl-2,4-diamino-6-chloro-s-triazines and Their Phytotoxic Property

The influence of substituents on the activities of a series of N²-α-substituted benzyl-N⁴-alkyl-2,4-diamino-6-chloro-s-triazines as inhibitors of photosystem II (PSII) was examined, and the phytotoxic differences between them and atrazine, as to the photosynthesis in leaf disks, mesophyll cells, intact chloroplasts and broken chloroplasts of spinach, and as to seedling-growth, were discussed. The inhibitory activity of the N²-α,α-dimethylbenzyl-N⁴-ethyl derivative (6), which was comparable on that of atrazine, was lower than those of the N²-α-alkylbenzyl analogues (1 ~5). The N⁴-?-alkyl-N²-α- methylbenzyl derivatives, in spite of the carbon length of the alkyl group, exhibited more potent activity than atrazine, but an a α β substitution of the N⁴-n-alkyl group caused a decrease in the activity with a few exceptions. These data may imply that the space of the binding site on PSII surrounding both the N² and N⁴ amino groups is relatively large. The binding between the receptor site and the N⁴ amino group, however, is easily influenced by a slight structural change in an inhibitor. The herbicidal compounds, N²-α-methylbenzyl-A^⁴-ethyl (1), A^²-α,α-dimethylbenzyl-N⁴-1-methylpropyl (30) and N²-α-methylbenzyl-N⁴,N⁴-diethyl (42) derivatives, exhibited potent inhibitory activity in the seedling growth test under dark/light conditions, whereas atrazine was very poor. The inhibitory activity of compound (1) toward photosynthesis was poor with leaf disks, compared to atrazine, whereas, the order of their activities was the reverse for plant preparations such as abaxial epidermis peeled leaf disks, mesophyll cells, intact chloroplasts and broken chloroplasts. It was indicated that a change in the phytotoxic symptom in the whole plant assay would be correlated to the permeability of the compound through the plant membrane(s).     

Lgr4 is required for endometrial receptivity acquired through ovarian hormone signaling

Previously, using the Keratin5-Cre transgenic mouse model we reported that female Lgr4-conditional KO mice (Lgr4^{K5 KO}) showed subfertility with defective stromal decidualization due to abnormal development of the uterine gland. However, the impact of the LGR4 defect on luminal epithelial cells was not investigated in the previous report. Here, we focused on the receptive state of the luminal epithelium in Lgr4^{K5 KO} mice that received ovarian hormone treatment. In Lgr4^{K5 KO} mice, progesterone failed to inhibit the luminal epithelial cell proliferation. Immunohistochemical and qRT-PCR analyses revealed down-regulated progesterone signaling in the uterus of Lgr4^{K5 KO} mice. These results demonstrated that LGR4 is essential for the acquisition of endometrial receptivity through ovarian hormone signaling.     

Interaction of RecBCD enzyme with DNA damaged by gamma radiation

Summary The DNA of a gene 2 mutant (T4 2 ^–) of phage T4 is degraded by RecBCD enzyme in the bacterial cytoplasm. Under normal conditions, recBCD ⁺ cells are therefore incapable of supporting the growth of phage T4 2 ^–. Only if the nucleolytic activity of RecBCD enzyme is absent from the cytoplasm are T4 2 ^–-infected bacteria able to form plaques. We found that recBCD ⁺ cells can form plaques if, before infection with T4 2 ^–, they have been exposed to gamma radiation. It is suggested that gamma ray-induced lesions of the bacterial DNA (e.g., double-strand breaks) bind RecBCD enzyme. This binding enables the enzyme to begin to degrade the bacterial chromosome, but simultaneously prevents its degradative action on the ends of minor DNA species, such as unprotected infecting phage chromosomes. Degradation of the chromosomal DNA, which occurs during the early postirradiation period, ceases about 60 min after gamma ray exposure. The reappearance of the nucleolytic action of RecBCD enzyme on T4 2 ^– DNA accompanies the cessation of degradation of bacterial DNA. Both, this cessation and the reappearance of the nucleolytic action of RecBCD enzyme on T4 2 ^– DNA depend on a functional recA gene product. These results suggest that postirradiation DNA degradation is controlled by the recA-dependent removal of RecBCD enzyme from the damaged chromosome. By making use of the temperature-sensitive mutant recB270, we showed that RecBCD-mediated repair of gamma ray-induced lesions occurs during the early postirradiation period, i.e. during postirradiation DNA degradation. It is shown that the RecD subunit of RecBCD enzyme also participates in this repair.     

Substituent effects on the puckering mode of the cyclobutane ring and the glycosyl bond of cis–syn photodimers

The cyclobutane ring (CB) puckering of a cis–syn DNA photodimer (cis–syn d-T[p]T) differs from that of a cis–syn RNA photodimer (cis–syn r-U [p] U) [J.-K. Kim and J. L. Alderfer (1992) Journal of Biomolecular Structure and Dynamics, Vol. 9 , p. 1705]. In cis–syn d-T [p] T, interconversion of the CB ring between CB⁺ and CB^? is observed, while in cis–syn r-U [p] U only CB^? is observed. In the CB⁺ conformation, the two thymine rings of the dimer are twisted in a right-handed fashion, as are the bases in B-form DNA. In case of CB^? they are twisted in a left-handed fashion. The C5 (base) and/or C2′ (sugar) substituents apparently affect the CB ring flexibility in cis–syn d-T [p] T and cis–syn r-U [p] U. To study the effects of the C5 substituent on CB ring flexibility, two-dimensional nuclear Overhauser effect (NOE) and ³¹P-nmr experiments were performed on cis–syn d-T [p] U, cis–syn d-U [p] T, and cis–syn d-U [p] U photodimers to investigate the CB puckering mode and overall molecular conformation and dynamics. The NOE results indicate the 5-methyl group in the photodimer induces conformational flexibility of the CB ring. In cis–syn d-T [p] U and cis–syn d-U [p] T, both CB⁺ and CB^? puckering modes are observed. This indicates interconversion between two modes takes place as observed in cis–syn d-T [p] T. In the case of cis–syn d-U [p] U, only the puckering CB^? mode is observed. All three DNA-type dimers—cis–syn d-T [p] U, cis–syn d-U [p] T, cis–syn d-U [p] U—show a characteristic flexibility of glycosidic bonds at the 5′ residue; cis–syn d-T [p] T demonstrates syn–anti interconversion for both the 3′ and 5′ sides, while the others are exclusively anti on the 3′ side. In contrast, the ribophotodimer, cis–syn r-U [p] U, lacking the C5 methyls and having a C2′-OH, demonstrates no conformational flexibility in the CB ring or in either of the glycosidic bonds. Differential flexibility of the three DNA-type dimers (cis–syn d-T [p] U, cis–syn d-U [p] T, cis–syn d-U [p] U) and the RNA dimer (cis–syn r-U [p] U) in the sugar-phosphate backbone region is also apparent from the temperature dependence of the ³¹P chemical shifts of these photodimers compared to their normal dimer analogues. Over the temperature range 18-63°C, the chemical shift change is reduced 22–42% in three DNA-type dimers, while it is reduced 71% in cis–syn r-U [p] U, suggesting the RNA-type dimer is more rigid. © 1993 John Wiley & Sons, Inc.     

Isolation and characterization of a novel ammonium overly sensitive mutant, <Emphasis Type="Italic">amos2</Emphasis>, in <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

Ammonium (NH₄ ⁺) toxicity is a significant agricultural problem globally, compromising crop growth and productivity in many areas. However, the molecular mechanisms of NH₄ ⁺ toxicity are still poorly understood, in part due to a lack of valuable genetic resources. Here, a novel Arabidopsis mutant, amos2 (ammonium overly sensitive 2), displaying hypersensitivity to NH₄ ⁺ in both shoots and roots, was isolated. The mutant exhibits the hallmarks of NH₄ ⁺ toxicity at significantly elevated levels: severely suppressed shoot biomass, increased leaf chlorosis, and inhibition of lateral root formation. Amos2 hypersensitivity is associated with excessive NH₄ ⁺ accumulation in shoots and a reduction in tissue potassium (K⁺), calcium (Ca²⁺), and magnesium (Mg²⁺). We show that the lesion is specific to the NH₄ ⁺ ion, is independent of NH₄ ⁺ metabolism, and can be partially rescued by elevated external K⁺. The amos2 lesion was mapped to a 16-cM interval on top of chromosome 1, where no similar mutation has been previously mapped. Our study identifies a novel locus controlling cation homeostasis under NH₄ ⁺ stress and provides a tool for the future identification of critical genes involved in the development of NH₄ ⁺ toxicity.     

Generation and characterization of a Ddx4-iCre transgenic line for deletion in the germline beginning at genital ridge colonization

Germline-specific Cre lines are useful for analyses of primordial germ cell, spermatogonial and oogonial development, but also for whole-body deletions when transmitted through subsequent generations. Several germ cell specific Cre mouse strains exist, with various degrees of specificity, efficiency, and temporal activation. Here, we describe the CRISPR/Cas9 targeted insertion of an improved Cre (iCre) sequence in-frame at the 3′ end of the Ddx4 locus to generate the Ddx4-P2A-iCre allele. Our functional assessment of this new allele, designated Ddx4^iCreJoBo, reveals that Cre activity begins in PGCs from at least E10.5, and that it achieves higher efficiency for early gonadal (E10.5–12.5) germline deletion when compared to the inducible Oct4^CreERT2 line. We found the Ddx4^iCreJoBo allele to be hypomorphic for Ddx4 expression and homozygous males, but not females, were infertile. Using two reporter lines (R26R^LacZ and R26R^tdTomato) and a floxed gene of interest (Cripto^flox) we found ectopic activity in multiple organs; global recombination (a common feature of germline Cre alleles) varies from 10 to 100%, depending on the particular floxed allele. There is a strong maternal effect, and therefore it is preferable for Ddx4^iCreJoBo to be inherited from the male parent if ubiquitous deletion is not desired. With these limitations considered, we describe the Ddx4^iCreJoBo line as useful for germline studies in which early gonadal deletion is required.