Skin graft rejection in mice repopulated with marrow of the skin donor type: A SKn gene in a congenic line

Genetically anemic W/W ^c mice and lethally irradiated wild-type mice were cured and populated by grafted marrow cells from donor mice of three congenic lines that differed at non-H-2 histocompatibility loci. Tail skin from mice of the same congenic lines was grafted 3–4 weeks later. In two cases, the recipients behaved as expected, no longer rejecting skin syngeneic with the marrow graft that had repopulated them. However, B6-H-24 ^c skin was rejected by WBB6F₁-W/W mice that were cured with B6-H-24 ^c marrow showing a mean survival time of 9.9 weeks. It was rejected somewhat faster, with a mean survival time of 5.9 weeks, by W/W mice cured with marrow from other types of donors. Results were more variable in lethally irradiated WBB6F₁-+/+ recipients of B6-H-24 ^c marrow, but they also rejected B6-H-24 ^c skin. Both types of recipients remained chimeras after the skin was rejected, showing more than 90% of the B6-H-24 ^c hemoglobin type. This is the first report of a Skn gene in a congenic line.     

Marrow allograft success inW/W v anemic mice: Relation to skin graft survival times

Genetically anemicW/W ^v mice were cured by marrow allografts from donors of 13 out of 18 tested strains that differed at non-H-2 histocompatibility alleles defined by skin or tumor grafting. They were also cured by donors from all four tested congenic lines whose antigenic differences had been defined by induction of serum antibodies. They were not cured acrossH-2 differences. Tail skin graft survival times on uncuredW/W ^v recipients were determined for all congenic lines used as marrow donors. The longest and shortest skin graft survival times predicted correctly marrow graft success or failure. NoW/W ^v mice were cured by marrow grafts from donors of the three congenic lines whose skin grafts were rejected in fewer than three weeks. Almost everyW/W ^v mouse grafted was cured by marrow grafts from donors of the 13 congenic lines whose skin grafts survived longest, from 11 to more than 25 weeks. Intermediate skin graft survival times failed to predict whether marrow grafts would succeed.W/W ^v mice were cured by marrow from four congenic lines with mean skin graft survival times of 4.2, 4.4, 8, and 9 weeks, while marrow grafts failed from other congenic lines with mean skin graft survival times of 3.3, 3.4, 4.8, and 8.7 weeks. The simplest explanation for these results is that the antigens specified by theH-2, H-3, H-4, H-25, andH-28 loci are strongly immunogenic on both marrow precursor cells and skin,H-17 andH-24 are strongly immunogenic on skin but not on marrow, andH-12 is strongly immunogenic on marrow precursor cells but less strongly on skin.     

Concentration of mast-cell progenitors in bone marrow,spleen, and blood of mice determined by limiting dilution analysis

When hematopoietic cells of congenic +/+ mice were injected into the skin of genetically mast-cell-depleted (WB × C57BL/6)F₁-W/W^v mice, mast cells appeared at the injection site. The donor origin of developing mast cells was confirmed by using granules of C57BL/6-bgl/bgl mice as a marker. When the number of injected cells was decreased, the proportion of injection sites at which mast cells did not appear increased according to the expected frequency of null response in a Poisson distribution. Therefore, such proportions were used to calculate the concentration of mast-cell precursors in the bone marrow, spleen, and peripheral blood. The relative concentration of mast-cell precursors in these tissues was similar to that of spleen-colony-forming cells. The present method seems useful as a semiquantitative in vivo assay for a population of progenitor cells which are committed to differentiate into mast cells.     

Polymorphism of minor histocompatibility genes in wild mice

H-2^b-restricted cytolytic T lymphocytes (CTL) were generated against H-1, H-3, and H-4 antigens and tested against target cells of F₁ hybrids between wild mice and inbred H-2 ^b mice. The congenic strain combinations for the CTL production were such that they tested one allele each at the H-1 and H-4 loci and four alleles at the H-3 locus. Most of the wild mice tested came from Southern Germany, but a few mice came from other European countries and Egypt and Israel. Virtually all wild mice typed as positive with CTL directed against H-3^b and H-4^b antigens; 32% of the F₁ hybrids tested reacted with anti-H-1^cCTL and 9% reacted with anti-H-3^d CTL. The positive results were not caused by cross-reaction with allogeneic H-2 antigens controlled by the major histocompatibility complex (Mhc) genes of the wild mice. At least some of the H-3 and H-4 antigens detected by the CTL in the F₁ hybrid were not identical with antigens of the immunizing strains. These results suggest a relatively low degree of polymorphism of the tested minor H loci in wild mice and further support the notion that minor H loci are unrelated to the Mhc.     

Identification of Mom12 and Mom13, two novel modifier loci of ApcMin-mediated intestinal tumorigenesis

Colorectal cancer is a heterogeneous disease resulting from a combination of genetic and environmental factors. The C57BL/6J (B6) Apc^Min/+ mouse develops polyps throughout the gastrointestinal tract and has been a valuable model for understanding the genetic basis of intestinal tumorigenesis. Apc^Min/+ mice have been used to study known oncogenes and tumor suppressor genes on a controlled genetic background. These studies often utilize congenic knockout alleles, which can carry an unknown amount of residual donor DNA. The Apc^Min model has also been used to identify modifer loci, known as Modifier of Min (Mom) loci, which alter Apc^Min-mediated intestinal tumorigenesis. B6 mice carrying a knockout allele generated in WW6 embryonic stem cells were crossed to B6 Apc^Min/+ mice to determine the effect on polyp multiplicity. The newly generated colony developed significantly more intestinal polyps than Apc^Min/+ controls. Polyp multiplicity did not correlate with inheritance of the knockout allele, suggesting the presence of one or more modifier loci segregating in the colony. Genotyping of simple sequence length polymorphism (SSLP) markers revealed residual 129X1/SvJ genomic DNA within the congenic region of the parental knockout line. An analysis of polyp multiplicity data and SSLP genotyping indicated the presence of two Mom loci in the colony: (1) Mom12, a dominant modifier linked to the congenic region on chromosome 6 and (2) Mom13, which is unlinked to the congenic region and whose effect is masked by Mom12. The identification of Mom12 and Mom13 demonstrates the potential problems resulting from residual heterozygosity present in congenic lines.Key words: adenomatous polyposis coli, modifier of min, congenic mice, caveolin-1, cancer susceptibility     

Antigraft responses to the H-28c antigen by B6 and B6D2F1 mice

The survival of minor H antigen-bearing skin grafts from donors congenic with C57BL/6 (B6) was compared in B6, B6D2, and AB6 hybrid recipients. In a case singled out for further study, B6 mice were found to reject HW 110 skin (H-28^c antigen) rapidly, whereas B6D2 mice rejected HW110 skin much more slowly and variably. Both major histocompatibility complex (MHC)-linked and non-MHC genes appeared to affect the survival of HW110 strain skin grafts on B6 and B6D2 recipients. Results of several experiments appear to rule out the sharing of H-28° epitopes between donors and recipients as an explanation for the relatively poor response of B6D2 mice to HW 110 skin grafts. Experiments involving bone marrow chimeras produced by the reciprocal exchange of bone marrow between irradiated B6 and B6D2 mice suggest that bone marrow-derived donor cells and non-bone-marrow-derived host cells each contribute to the immune response phenotype with respect to the H-28° antigen. An attempt was made to determine whether B6D2 mice that failed to reject HW110 strain skin grafts possessed suppressor cells specific for the H-28^c antigen. Spleen cells from poorly responsive B6D2 mice failed to suppress the rejection of HW 110 skin grafts when assayed in immunodeficient mice that were provided with cells from immune 136132 donors that were highly responsive to HW110 skin grafts.     

Histidine decarboxylase activities in mutant mice deficient in mast cells

The histamine contents were very low in the whole bodies of various types of mutant mice (W^v/W^v, W^v/W, W/W), in which the number of mast cells was decreased, but the L-histidine decarboxylase activities in these mutant mice were not much lower than in control wild type mice. These findings suggest the presence of high histidine decarboxylase activity in cells other than mast cells. Histidine decarboxylase in the whole body of mice was difficult to assay, because the enzyme was rapidly destroyed by proteases, but inclusion of a protease inhibitor, such as Leupeptin, Antipain, Chymostatin, or Pepstatin in the assay mixture permitted the accurate assay of histidine decarboxylase in crude extracts.     

Analysis of Pleiotropism at the Dominant White-Spotting (W) Locus of the House Mouse: A Description of Ten New W Alleles

Characterization of the pleiotropic effects of ten new putative W locus mutations, nine co-isogenic and one highly congenic with the C57BL/6J strain, reveals a wide variety of influences upon pigmentation, blood formation and gametogenesis. None of the putative alleles, each of which is closely linked to Ph, a gene 0.1 cM from W, gave evidence of complementation with W³⁹, a new allele previously shown to be allelic to W^v. All W*/W³⁹ genotypes resulted in black-eyed-white anemics with reduced gametogenic activity.¹ Homozygotes for seven of these mutations are lethal during perinatal life; anemic embryos have been identified in litters produced by intercross matings involving each of these alleles.—Phenotypes of mice of several mutant genotypes provide exceptions to the frequent observation that a double dose of dominant W alleles (e.g., W/W^v or W/W) results in defects of corresponding severity in each of the three affected tissues. One viable homozygote has little or no defect in blood formation, and another appears to have normal fertility. The phenotypes of these homozygotes support the conclusion that the three tissue defects are not dependent on each other for their appearance and probably do not result from a single physiological disturbance during the development of the embryo.—Although homozygosity for members of this series results in a wide range of phenotypes, the absence of complementation of any allele with W³⁹, the close proximity of each mutant to Ph, and the fact that all alleles produce detectable (though sometimes marginal) defects in the same tissues affected by W and W^v, support the hypothesis that each new mutant gene is a W allele.     

Activity and Properties of Macrophage Migration Inhibitory Factor produced by Mixed Lymphocyte Cultures

THE macrophage migration test is an in vitro demonstration of delayed hypersensitivity. Supernatant fluids of sensitive lymphocytes cultured for 24 h in the presence of specific antigen contain migration inhibitory factor (MIF) that arrests the migration of macrophages of unsensitized animals in vitro¹,². In vivo, it induces delayed skin reactions³. The use of the macrophage migration test, based on differences of transplantation antigens in donor and recipient, to show histocompatibility has been suggested⁴. The test was also recommended as an indicator of immunological reactivity after organ transplantation, to demonstrate impending rejection⁵. It can demonstrate homograft sensitivity, for migration of peritoneal exudate cells (containing lymphocytes and macrophages) of CBA mice previously sensitized by grafts from A/Jax donors was inhibited when they were mixed with peritoneal exudate cells of the donor strain. However, histocompatibility was not demonstrated, for mixtures of peritoneal exudate cells of ungrafted CBA mice and A/Jax mice migrated regularly during the 24 h test⁶.     

Mast cells contribute to double-stranded RNA-induced augmentation of airway eosinophilia in a murine model of asthma

Background

Clinical studies showed the contribution of viral infection to the development of asthma. Although mast cells have multiple roles in the pathogenesis of allergic asthma, their role of in the virus-associated pathogenesis of asthma remains unknown. Most respiratory viruses generate double-stranded (ds) RNA during their replication. dsRNA provokes innate immune responses. We recently showed that an administration of polyinocinic polycytidilic acid (poly IC), a mimetic of viral dsRNA, during allergen sensitization augments airway eosinophilia and hyperresponsiveness in mice via enhanced production of IL-13.

Methods

The effect of poly IC on allergen-induced airway eosinophilia was investigated for mast cell-conserved Kit^+/+ mice and -deficient Kit^W/Kit^W-v mice. The outcome of mast cell reconstitution was further investigated.

Results

Airway eosinophilia and IL-13 production were augmented by poly IC in Kit^+/+ mice but not in Kit^W/Kit^W-v mice. When Kit^W/Kit^W-v mice were reconstituted with bone marrow-derived mast cells (BMMCs), the augmentation was restored. The augmentation was not induced in the mice systemically deficient for TIR domain-containing adaptor-inducing IFN-β (TRIF) or interferon regulatory factor (IRF)-3, both mediate dsRNA-triggered innate immune responses. The augmentation was, however, restored in Kit^W/Kit^W-v mice reconstituted with TRIF-deficient or IRF-3-deficient BMMCs. Although leukotriene B₄ and prostaglandin D₂ are major lipid mediators released from activated mast cells, no their contribution was shown to the dsRNA-induced augmentation of airway eosinophilia.

Conclusions

We conclude that mast cells contribute to dsRNA-induced augmentation of allergic airway inflammation without requiring direct activation of mast cells with dsRNA or involvement of leukotriene B₄ or prostaglandin D₂.     

A semiquantitative measure of immune responses against erythropoietic stem cell antigens

A semiquantitative assay was developed and used to measure the effects of immune responses against 16 independent non-H-2 antigenic loci on erythropoietic stem cells. The assay compares repopulation in genetically anemic WBB6F₁-W/W recipients that have normal immune responses, and in lethally irradiated WBB6F₁ +/+ mice whose immune responses are suppressed by the irradiation. The differences in repopulating ability between these two types of recipients measure how immune responses affect erythropoietic stem cells. Stem cell repopulating abilities for the cells with antigens specified by the Thy-1, H-1, H-24, Ly-1, H-37, and H-17 loci were affected slightly, if at all. Repopulating abilities were moderately reduced by responses against antigens specified by H-15, 16, Ea-2, and Ly-2, 3 loci, and against the differences between the B6 and B10 genotypes, although marrow of these types cured W/W recipients. A surprising result occurred for the antigen specified by the H-8 locus, in which immune responses strongly reduced repopulating abilities, although this type of marrow cell cured W/W recipients. A comparison of these results with skin graft survival times suggests that the antigens specified by the H-17 and H-24 loci are strongly immunogenic on skin but not on marrow stem cells, while those specified by the H-12 and H-8 loci are strongly immunogenic on marrow stem cells but not on skin.     

Inheritance of Susceptibility to Friend Mouse Leukemia Virus: VI. Reciprocal Alteration of Innate Resistance or Susceptibility by Bone Marrow Transplantation Between Congenic Strains

Two newly established mouse strains which are congenic with standard inbred strains were used for the study of the locus Fv which controls the susceptibility to Friend leukemia virus in mice. A strain in each congenic pair shares the major histocompatibility gene with the corresponding partner strain but differs from the latter in the Fv locus. Mice with Fv^r/Fv^r genotype (DDD-Fv^r, C57BL/6) do not develop marked spleen enlargement upon virus challenge, whereas spleens of mice with Fv^s/Fv^s genotype (DDD, C57BL/6-Fv^s) become large even with a virus inoculum 1/10³ to 1/10⁵ times that used for the resistant strains. Mice of each strain were heavily irradiated, inoculated with bone marrow cells taken from either syngenic or corresponding congenic mice, and challenged later with the leukemia virus. When Fv^s/Fv^s mice had been restored with bone marrow cells taken from Fv^r/Fv^r mice, the spleens remained small after the virus inoculation. In contrast, Fv^r/Fv^r mice receiving Fv^s/Fv^s cells responded to the virus with marked spleen enlargement. In the enlarged spleens of the C57BL/6 mice which do not otherwise allow the virus multiplication, a considerable amount of infectious virus was found. The altered response seems to be due to repopulation of destroyed tissues by the transplanted bone marrow cells. It is concluded that the locus Fv is expressed on hemopoietic cells, and cells derived from bone marrow play a predominant role in the development of splenomegaly by Friend leukemia virus.     

Identification of a congenic mouse line with obesity and body length phenotypes

Our primary objective was to discover simplified mouse models corresponding to human obesity linkages. We used the B10.UW– H3^b we Pax1^un a^t/Sn (B10.UW) congenic strain, a subcongenic strain with a reduced UW strain donor region, and their C57BL/10SnJ background strain. The congenic and subcongenic UW strain donor regions are on mouse Chr 2. We measured body length [anal-nasal (AN) length], summed fat depot weights normalized for body weight (Adiposity Index, AI), and percentage of body weight that is lipid. The B10.UW congenic and subcongenic strains have significantly smaller AN lengths (p < 0.0001) and have a significantly lower AI and percentage of body weight as fat than the background strain (p < 0.0001). In an F₂ intercross of the congenic and background strains, AN and AI were both linked to the distal half of the donor region with LOD scores greater than 19 and 5, respectively. F₂ haplotypes identified a minimal region for AN linkage of 0.8 megabases (Mb) that is estimated to express four genes in the current Celera mouse genome assembly. We narrowed the most likely location of the obesity gene to 15 Mb whose homologous genes are all located on human Chr 20 in the region surrounding the centromere. Since a previous study identified human obesity linkage peaking near the centromere, then the B10.UW mice may exhibit obesity due to the homologous gene.     

Fv-2 locus controls the proportion of erythropoietic progenitor cells (BFU-E) synthesizing DNA in normal mice

We have found that Fv-2 on chromosome 9 of the mouse, the locus originally identified as a major determinant of host susceptibility (Fv-2^s) or resistance (Fv-2^r) to Friend leukemia virus in mice, also functions in uninfected animals, where it determines whether a high (Fv-2^s) or low (Fv-2^r) proportion of erythropoietic progenitor cells BFU-E are normally engaged in DNA synthesis. Adult mice belonging to five inbred strains of genotype Fv-2^rr, two inbred strains and three congenic strains of genotype Fv-2^ss, two kinds of F1 hybrid of genotype Fv-2^rs, and appropriate controls were given high specific activity ³H-thymidine intravenously for 1 hr and their bone marrow and spleen cells were assayed for surviving BFU-E at 7 days and CFU-E at 2 days in plasma culture. A high proportion of BFU-E in all Fv-2^ss and Fv-2^rs mice were killed, but all or nearly all of the BFU-E in Fv-2^rr mice survived exposure to ³H-thymidine. The allelic difference at Fv-2 had no significant effect on the proportion of other progenitor or stem cells (CFU-E, CFU-C or CFU-S) normally undergoing DNA synthesis in the hemopoietic tissues, or on the hemoglobin concentration, red blood cells, hematocrit, total or differential white blood cell counts in the peripheral blood of these animals. While a few or no BFU-E were killed by ³H-thymidine in adult B6 (Fv-2^rr) mice, a high proportion of BFU-E were killed by ³H-thymidine in these animals when they were less than 7 weeks old. Bleeding of adult B6 mice or lethal irradiation followed by repopulation by syngeneic bone marrow cells rendered a high proportion of their BFU-E vulnerable to ³H-thymidine. BFU-E of adult B6 mice which in vivo were unaffected by ³H-thymidine were rapidly killed when exposed to ³H-thymidine in vitro. Fv-2 thus seems to act at or near the G₁-S or G₀-S boundary to influence the rate or probability of transition between the nonDNA-synthesizing and the DNA-synthesizing states of BFUE. The gene that controls susceptibility or resistance to a murine erythroleukemia virus appears also to be a regulatory gene that controls the proliferative behaviour of normal cells at a specific stage of erythropoietic differentiation.     

Syngeneic sensitization of mouse lymphocytes on monolayers of thyroid epithelial cells: IV. Correlation with H-2 haplotypes

In vitro primary syngeneic sensitization on monolayers of thyroid epithelial cells was performed with 21 inbred strains of mice representing 11 original H-2 haplotypes. Significant differences in the proliferative responses, assessed by thymidine uptake, were found to be related to the major histocompatibility complex haplotype. This result was further confirmed using congenic resistant strains of mice. In comparison with the experimental autoimmune thyroiditis induced by syngeneic thyroglobulin and adjuvant, primary syngeneic sensitization on monolayers of thyroid epithelial cells appeared to be under the same genetic control (H-2^k strains being good responders, while H-2^b mice are poor responders).     

Dependence of Basipetal Polar Transport of Auxin upon Aerobic Metabolism

The movement of IAA-¹⁴C through coleoptile segments of Avena and Zea has been investigated under aerobic and anaerobic conditions. The results are as follows: Zea. Using a 5-mm segment and a 2-hour transport period anaerobic conditions reduced the total uptake of ¹⁴C from an apical donor by 74% and the proportion of the total found in the receiving block by at least 45%. Anaerobic conditions reduced total uptake from a basal donor by 58% but no ¹⁴C reached the apical receiving block in either air or N₂. Uptake from apical and basal donor blocks in N₂ is closely similar.

The presence of ¹⁴C in the basal receiving blocks, and its absence in the apical receiving blocks, in N₂ suggests that even in anaerobic conditions movement of IAA is polarized basipetally, although the movement occurs at only a fraction of the rate found in air.

Anaerobic conditions induced a similar reduction in basipetal movement of IAA in upper and lower 5-mm segments taken from the apical 10 mm of a Zea coleoptile.

Using 10-mm Zea segments no ¹⁴C was recovered in the receiving blocks at the basal end of the segment after 2 and 4 hours in N₂ whereas large amounts were recovered in air.

Avena: Using 5-mm segments and a 2-hour transport period the total uptake of ¹⁴C from an apical donor is reduced by 83%. Movement of ¹⁴C into the basal donor is totally inhibited in N₂. Total uptake of ¹⁴C from a basal donor is reduced by 61% in nitrogen and no ¹⁴C reached the apical receiving blocks regardless of the atmospheric conditions.

A time course for the movement of ¹⁴C into the basal and apical receiving blocks through 5-mm segments showed that in air the amount in the basal receivers increased for 4 hours and then remained approximately uniform. In N₂ no significant ¹⁴C reached the receivers until 6 to 8 hours after the application of donors but even then the amounts were about 12 to 14% of that in aerobic receivers. Movement of ¹⁴C into apical receivers was similar in air and in nitrogen and even after 6 to 8 hours the amount of radioactivity barely reached significant levels.

     

Successful cooperative interactions between primed T and B lymphocytes derived from Gix+ and Gix- congenic mice.

Using the congenic partner mouse strains, 129 and 129-G_ix^?, which differ only at the locus coding for the G_ix-gp70 viral envelope glycoprotein, the possible involvement of such viral-encoded membrane macromolecules in successful interactions between T and B lymphocytes has been investigated. These studies demonstrate that reciprocal mixtures of primed T and B lymphocytes from these respective congenic mice interact quite effectively in the development of adoptive secondary antibody responses. Moreover, reciprocal mixtures of purified populations of unprimed T and B lymphocytes from these strains cooperated quite well to develop primary in vitro anti-SRBC antibody responses. Thus, in contrast to the critical role played by I-region genes in dictating the efficiency of lymphocyte interactions, the G_ix locus does not apparently influence the ability of such cells to interact, at least at the stages of differentiation analyzed in these experiments, provided stringent H-2 identity requirements are met.     

A Natural Genetic Variant of Granzyme B Confers Lethality to a Common Viral Infection

Many immune response genes are highly polymorphic, consistent with the selective pressure imposed by pathogens over evolutionary time, and the need to balance infection control with the risk of auto-immunity. Epidemiological and genomic studies have identified many genetic variants that confer susceptibility or resistance to pathogenic micro-organisms. While extensive polymorphism has been reported for the granzyme B (GzmB) gene, its relevance to pathogen immunity is unexplored. Here, we describe the biochemical and cytotoxic functions of a common allele of GzmB (GzmB^W) common in wild mouse. While retaining ‘Asp-ase’ activity, GzmB^W has substrate preferences that differ considerably from GzmB^P, which is common to all inbred strains. In vitro, GzmB^W preferentially cleaves recombinant Bid, whereas GzmB^P activates pro-caspases directly. Recombinant GzmB^W and GzmB^P induced equivalent apoptosis of uninfected targets cells when delivered with perforin in vitro. Nonetheless, mice homozygous for GzmB^W were unable to control murine cytomegalovirus (MCMV) infection, and succumbed as a result of excessive liver damage. Although similar numbers of anti-viral CD8 T cells were generated in both mouse strains, GzmB^W-expressing CD8 T cells isolated from infected mice were unable to kill MCMV-infected targets in vitro. Our results suggest that known virally-encoded inhibitors of the intrinsic (mitochondrial) apoptotic pathway account for the increased susceptibility of GzmB^W mice to MCMV. We conclude that different natural variants of GzmB have a profound impact on the immune response to a common and authentic viral pathogen.     

The S1 split signal of photosystem II; a tyrosine-manganese coupled interaction

Detailed optical and EPR analyses of states induced in dark-adapted PS II membranes by cryogenic illumination permit characterization and quantification of all pigment derived donors and acceptors, as well as optically silent (in the visible, near infrared) species which are EPR active. Near complete turnover formation of Q_A⁻ is seen in all centers, but with variable efficiency, depending on the donor species. In minimally detergent-exposed PS II membranes, negligible (< 5%) oxidation of chlorophyll or carotenoid centers occurs for illumination temperatures 5-20 K. An optically silent electron donor to P680⁺ is observed with the same decay kinetics as the S₁ split signal. Cryogenic donors to P680⁺ seen are: (i) transient (t_1/2 ∼ 150 s) tyrosine related species, including ‘split signals’ (∼ 15% total centers), (ii) reduced cytochrome b₅₅₉ (∼ 30-50% centers), and (iii) an organic donor, possibly an amino acid side chain, (∼ 30% centers).     

Relationship of respiration to body weight in the tilapia Oreochromis niloticus under resting and normoxic conditions

• 1.1. The relationships of oxygen consumption (V_o2, ml/min/fish), ventilation volume (V_g, ml/min/fish), stroke volume (V_s, ml/stroke/fish), respiration frequency (RF, stroke/min) and oxygen utilization (U, %) to body weight (W, g) in the tilapia under resting and normoxic conditions were V_o2 = 0.002835W^0.754193, V_g = 0.688965W^0.722786, V_s = 0.002790W^1.017188, RF = 248.58210W^−0.296139, U = 0.000935W + 87.394288, respectively.