MPD: Jax5: project protocol

Jax5 project protocol

Breeding performance survey, females of 35 commonly used strains of JAX Mice (2009)

Jackson Laboratory
With: Flurkey K

Jax5_Protocol

Project protocol — Contents
Workflow and sampling
Equipment and supplies
Reagents and solutions
Procedure
Additional information
Data

Workflow and sampling

Step

Procedure done

Dates

Data collected

1
JAX breeding performance data was collected from Production Colonies (pedigreed expansion stocks) from which JAXÂ® Mice are shipped.
December 2005 to June 2008

female reproductive/ breeding performance

2
Males and females were paired, and in addition, trios were set up for NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ).
December 2005 to June 2008

-

3
Cages were monitored by JAX animal caretakers for the duration of the study.
December 2005 to June 2008

-

4
The number of pups born and date of birth were recorded, and the number and sex of surviving pups were recorded at the time of weaning (usually 3-4 wks of age).
December 2005 to June 2008

litter/pups parameters

Equipment and supplies

Vivarium for breeding mice

Essentials for recording female mice breeding/reproductive performance

Gloves, masks, laboratory gown, and head wear

Large forceps

Investigator Notes: "All mouse colonies (even within the same facility) are different and breeding performance may vary. Thus, the breeding performance data in this study should be used as a guideline to indicate strain breeding potential and to help identify potential breeding problems."

Reagents and solutions

Alcohol for disinfection

Procedures

Data submission & curation
Data were submitted to MPD by litter per dam. To standardize the study and ensure data are maximally useful for comparisons across strains, the following guidelines were followed to omit data that did not meet certain criteria.

MPD criteria
1. Dam age at mate: 3-6 wks of age (e.g., data were excluded from females that were first mated at >6 wks of age)
2. Max age of dam at birth of last litter: 40 wks of age
3. Interval between litters for dam: ≤10 wks (e.g., data were excluded if breeders were not productive within a 10 wk window). If number of pups born was submitted as less than number of pups weaned, the value reported for 'pups born' was adjusted to equal to the number of 'pups weaned', assuming there was an initial miscount as a result of minimally disturbing the family unit.

MPD notes: Less than 4% of submitted data did not meet our requirements. These data are omitted from the data file and not used for computation. Strain performance data have been summarized in two ways:
1. By dam: summary of all litters per dam, then summarized for strain
2. By litter: summary of all litters (regardless of dam) per strain

A summary table from this study is available in The Jackson Laboratory Handbook on Genetically Standardized Mice, Sixth Edition (2009).

For convenience we have made the following information publicly available:
Table 1. Strategies for maximizing productivity of a breeding colony.
Table 2. Reproductive characteristics for most inbred strains of laboratory mice.
Table 3. Environmental factors that can affect breeding.
Table 4. Breeding problems and possible resolutions.

Additional information from The Jackson Laboratory Handbook on Genetically Standardized Mice

Table 1. Strategies for maximizing productivity of a breeding colony.

Factors
Action to promote successful breeding Comments

1

When to set up breeding
â¢ Mate mice when they are 6â8 weeks old. â¢ Note that it is not unusual for the first litter to be smaller than the second or third, which are typically the largest.

2

When to foster pups
â¢ Foster pups
- if the mother does not "nest" the pups right away but leaves them scattered around the cage , or
- if milk spots do not appear in the pups by the time they are 24-hours old. â¢ If you need offspring from a female who is a poor mother, plan ahead to have foster mothers ready when she gives birth.

â¢ Housing 2 females together will often allow them to work together and successfully raise 2 litters.

3

When to replace breeding pairs for optimal performance
â¢ Replace breeding pairs as their reproductive performance declines (typically 6â8 months of age; see Table 2.) â¢ A colony of mixed-age breeders produces a more consistent quantity of pups than does a colony with mice of the same age.

â¢ For a large colony, maintain a stable supply of breeding pairs at various ages by replacing a specific percentage on a weekly or monthly basis.

4

When to replace individual female breeders
â¢ Replace female breeders when they
- do not produce a litter within 60 days of pairing (unless this delay is normal for the strain), or
- do not produce a litter within 60 days of their last
- produce litters but pups do not survive for 2â3 litters.
-

5

When to replace individual male breeders
â¢ Replace male breeders
- when they reach 1 year of age, or
- if they are infertile with a young, fertile female.
-

6

When to cull a litter
â¢ Reduce the number of pups in a litter if the mother is having problems feeding the pups. â¢ Some mothers may be unable to provide milk for more than a few pups.

â¢ For segregating strains, remove unwanted pups as soon as they can be phenotyped or genotyped.

7

How to improve breeding behavior
â¢ With young females, use experienced males. â¢ Males mature later than females; therefore age at first litter for same-aged breeding pairs is often determined by the male.

â¢ Isolate males for 2 weeks before pairing.

â¢ Rotate males within a strain among cages.

Table 2. Reproductive characteristics for most inbred strains of laboratory mice.

Characteristic Normal range Comments

1
Sexual maturity 4â8 wks of age Males usually reach sexual maturity by 6 weeks, females by 4â6 weeks.

2
Estrous cycle 4-day or 5-day cycle The normal cycle can be interrupted by mating, pheromones, vibration, noise, and other environmental stresses.

3
Postpartum estrus 6- to 8-hr period This is the estrous period females enter within a few hours after giving birth. If a male is in the cage, mating and pregnancy are likely.

4
Ovulation rate 4-12 ova per estrus Strain dependent.

5
Litter size 2â12+ pups (aver. 6â8 pups) Strain dependent. Pattern is for litter size to increase, reach a peak at about 3â4 months of age, then start decreasing.

6
Fertility rate 50â100% With some strains, all pairs of mice are fertile; with others, as few as 50% are.

7
Gestation length 18â21 days Gestation length is typically 18â19 days for most strains; may be longer if litters are smaller (4 or fewer pups) or mothers are older.

8
Time between litters 22â50 days Typically the shortest time between litters occurs between 3â4 months of age (between the first and second litter), then progressively increases.

9
Generation time About 10 wks Strain dependent. Conception-to-conception time is determined as follows: 3 weeks gestation, 3â4 weeks suckling, 1â3 additional weeks until sexual maturity. But, generation time for the first litter is often longer.

10
Weaning age 21â28 days In husbandry context, the age at which pups are removed from their mother, not when they start eating solid food. Varies among strains; depends on weanling size and maturity. Most strains are weaned at 21 days, some at 28 days. Do not remove pups from mother before 17 days unless they are transferred to a foster mother.

11
Total litters 2â8 Total litter number varies by strain. A total of 4+ litters is typical, but some strains produce as few as 1 or 2 litters.

12
Reproductive lifespan (female) Terminates at 6-12 mo. of age Strain dependent. For inbred strains, fecundity usually begins to decrease with the 3rd litter. By 6â8 months, some females become infertile, and litter size for most females of most strains has diminished to the point that it is more economical to set up a new breeding pair.

13
Reproductive lifespan (male) Terminates at 12-14 mo. of age Strain dependent. Fertility in some strains decreases starting at 10 months.

14
Delayed implantation n/a Implantation normally occurs during the fifth day after conception. However, if a female is nursing, implantation may be delayed for more than a week, during which time embryonic development is held in suspension.

15
Seasonal breeding fluctuations n/a Some strains are susceptible to changes in breeding behavior based on season.

Table 3. Environmental factors that can affect breeding

Factors
Action to promote successful breeding Comments

1

Location of cages

â¢ Avoid locating cages near a heavily trafficked or noisy area, such as near a door or sink or a loudspeaker used for paging.

â¢ Changes in levels of noise and vibration can decrease breeding performance and may induce mothers to resorb litters, cannibalize their pups, or stop breeding.

â¢ Place cage racks several inches from the wall to prevent building vibrations from transferring to the cages. â¢ Construction-related noise and vibrations may be especially problematic.

2

Lighting

â¢ Maintain a single, consistent, lighting cycle. The most common cycles are 14:10 (on:off) and 12:12.
â¢ Disruption of the light cycle may have an adverse effect on breeding.

â¢ For wild-derived mice, use less intense lighting.

3

Barometric pressure
â¢ Maintain a stable barometric pressure. â¢ Falling barometric pressure can cause some strains to become hyperactive, which reduces breeding performance.

4

Temperature and humidity

â¢ Keep the temperature at 16â26°C (64â79°F)
â¢ Thermoneutral temperature for mice is around 27â28°C (80â82°F). In contrast, for humans, it is about 22â23°C (72â74°F).

â¢ Keep the humidity at 40â60%.

5

Air quality and odors

â¢ Keep the room air fresh, free from strong odors.

â¢ Mice are extremely sensitive to strong or noxious odors, but they like their own scent to be strong in their environment.

â¢ Establish a "no perfume" policy for caretakers, technicians, or anyone who works with the mice. â¢ Noxious fumes may reduce breeding performance.

â¢ Use clean forceps or clean (or new) gloves for each cage.

6

Handling

â¢ Work gently, slowly, and quietly when handling breeding mice.
â¢ Laboratory mice respond best to calm, consistent handling.

â¢ Try to regularly assign caretakers to the same cages so that the mice receive consistent care with familiar handling and odors.

â¢ Avoid changing cages more often than once a week; if females are ready to give birth, skip cage changing until pups are 2 days old or you can see milk spots. â¢ Often, mice do not like new technicians.

â¢ Minimize handling and checking on the mice, especially if mice are pregnant or giving birth, or have new litters. â¢ Wild-derived mice are especially sensitive to handling stress.

â¢ Unless absolutely necessary, do not handle pups until they are 3 days old.

7

Bedding and nesting material
â¢ Provide nesting materials in the cage, especially if bedding (such as pellets from corn cob) does not lend itself to nesting.
â¢ The addition of material such as Kimwipes® or Nestlets® can promote nesting.

â¢ Nesting behavior is strain dependent.

8

Diet
â¢ Provide food with a dietary fat content of 4â11% fat w/w. â¢ The optimal percentage of fat in the diet, with respect to fecundity, is strain dependent. Optimal fat content ranges from 4â12% w/w; a commercially available breeder diet with 9% fat w/w works well for most strains of mice.

â¢ If mice have bad teeth, broken teeth (e.g., from gnawing or malocclusion), no teeth, or other phenotypes that affect their ability to eat normal mouse food, provide an alternate food supply, perhaps either ground or dampened food.

â¢ If mice cannot reach the "normal" water or food supply, provide access to both on the cage floor.

Table 4. Breeding problems and possible resolutions.

Problem Possible resolution

1

Mice are not breeding.
A
Make sure you have male and female breeders.

B
Add nesting material specifically designed for that purpose.

C
Try a different diet, for example, one with more or less fat.

D
Minimize stressâincluding human contact with the mice and activity and noise in the room. Construction-related vibrations, even outside the building, can disrupt breeding. If possible, move mice to a quieter area.

E
Try a 14:10 light cycle.

F
Make sure mice are healthy and able to breed (for example, not too obese or too old). Try healthier, younger animals.

G
If you never see vaginal plugs, try a new male.

2

Females are not getting pregnant.
H
Determine whether the problem is the male or female: pair a proven breeder female with the male and a proven breeder male with the female.

I
Surgically evaluate the reproductive tract. If the female appears normal, try low dose gonadotrophins, ovarian transplant, IVF; if the male appears normal, try IVF.

J
Research the strain reproductive characteristics. For a transgenic, check the effect of the transgene on breeding. For a strain carrying a mutation, check the effect of the mutation. Adjust the breeding strategy accordingly.

3
Mice get pregnant but you never see pups (females are resorbing fetuses).
D (above)
The most common cause of fetal resorption is stress.

4
Individual breeders are not producing an expected number of pups.
B, C, D, E, F, H, J (above)

-

5
Females give birth, but donât raise their pups.
D, J (above) K
If you introduced a male to a cage with pups, he may have killed them. Wait to add a male until all pups have been weaned and removed.

6
Pups disappear or do not survive.

7
Colony productivity has dropped.
L
Check for environmental factors that might have changed. Consider room conditions (temperature, vibrations, building construction, odors, etc.), caretaker, and diet. If more than one cage, area, or strain is affected, expand the search. If possible, restore environment to previous conditions.

Data & information collected

* = accessioned as MPD measurement
L) = local parameter
• = supplementary data or information

• JAX® Animal Facility
• Mating type (pair, trio)
• Dates of birth (dam), mating, birth of litter
L) Litter number (order)
* Number of pups born per litter
• Number of males weaned per litter
• Number of females weaned per litter

Data determined or derived:
L) Age of dam at mating• Interval between consecutive litters
* Latency to first litter (after breeding cage established)
L) Age of dam at birth of every litter
L) Age of dam at birth of first litter
• Interval between consecutive litters
* Total number of pups weaned per litter
• Percent females per litter
* Wean to born ratio per litter
* Total number of litters per dam
* Mean interval between consecutive litters per dam
* Total number of pups born per dam
* Total number of pups weaned per dam
* Mean number of pups born per number of litters born
* Mean number of pups weaned per number of litters born
* Percent females weaned per dam

MPD derived:
* Parenting index (wean to born ratio per dam, computation requires that at least 3 litters born and at least 10 pups born total)
* Fecundity index (total pups weaned per dam divided by mean interval between litters, computation requires that at least 3 litters born and at least 10 pups born total)
* Sex ratio (female to male ratio per dam, computation requires that at least 3 litters born and at least 10 pups born total)

Step	Procedure done	Dates	Data collected
1	JAX breeding performance data was collected from Production Colonies (pedigreed expansion stocks) from which JAXÂ® Mice are shipped.	December 2005 to June 2008	female reproductive/ breeding performance
2	Males and females were paired, and in addition, trios were set up for NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ).	December 2005 to June 2008	-
3	Cages were monitored by JAX animal caretakers for the duration of the study.	December 2005 to June 2008	-
4	The number of pups born and date of birth were recorded, and the number and sex of surviving pups were recorded at the time of weaning (usually 3-4 wks of age).	December 2005 to June 2008	litter/pups parameters

	Factors	Action to promote successful breeding	Comments
1	When to set up breeding	â¢ Mate mice when they are 6â8 weeks old.	â¢ Note that it is not unusual for the first litter to be smaller than the second or third, which are typically the largest.
2	When to foster pups	â¢ Foster pups - if the mother does not "nest" the pups right away but leaves them scattered around the cage , or - if milk spots do not appear in the pups by the time they are 24-hours old.	â¢ If you need offspring from a female who is a poor mother, plan ahead to have foster mothers ready when she gives birth.
2	When to foster pups		â¢ Housing 2 females together will often allow them to work together and successfully raise 2 litters.
3	When to replace breeding pairs for optimal performance	â¢ Replace breeding pairs as their reproductive performance declines (typically 6â8 months of age; see Table 2.)	â¢ A colony of mixed-age breeders produces a more consistent quantity of pups than does a colony with mice of the same age.
3	When to replace breeding pairs for optimal performance	â¢ For a large colony, maintain a stable supply of breeding pairs at various ages by replacing a specific percentage on a weekly or monthly basis.
4	When to replace individual female breeders	â¢ Replace female breeders when they - do not produce a litter within 60 days of pairing (unless this delay is normal for the strain), or - do not produce a litter within 60 days of their last - produce litters but pups do not survive for 2â3 litters.	-
5	When to replace individual male breeders	â¢ Replace male breeders - when they reach 1 year of age, or - if they are infertile with a young, fertile female.	-
6	When to cull a litter	â¢ Reduce the number of pups in a litter if the mother is having problems feeding the pups.	â¢ Some mothers may be unable to provide milk for more than a few pups.
6	When to cull a litter		â¢ For segregating strains, remove unwanted pups as soon as they can be phenotyped or genotyped.
7	How to improve breeding behavior	â¢ With young females, use experienced males.	â¢ Males mature later than females; therefore age at first litter for same-aged breeding pairs is often determined by the male.
		â¢ Isolate males for 2 weeks before pairing.
		â¢ Rotate males within a strain among cages.

	Characteristic	Normal range	Comments
1	Sexual maturity	4â8 wks of age	Males usually reach sexual maturity by 6 weeks, females by 4â6 weeks.
2	Estrous cycle	4-day or 5-day cycle	The normal cycle can be interrupted by mating, pheromones, vibration, noise, and other environmental stresses.
3	Postpartum estrus	6- to 8-hr period	This is the estrous period females enter within a few hours after giving birth. If a male is in the cage, mating and pregnancy are likely.
4	Ovulation rate	4-12 ova per estrus	Strain dependent.
5	Litter size	2â12+ pups (aver. 6â8 pups)	Strain dependent. Pattern is for litter size to increase, reach a peak at about 3â4 months of age, then start decreasing.
6	Fertility rate	50â100%	With some strains, all pairs of mice are fertile; with others, as few as 50% are.
7	Gestation length	18â21 days	Gestation length is typically 18â19 days for most strains; may be longer if litters are smaller (4 or fewer pups) or mothers are older.
8	Time between litters	22â50 days	Typically the shortest time between litters occurs between 3â4 months of age (between the first and second litter), then progressively increases.
9	Generation time	About 10 wks	Strain dependent. Conception-to-conception time is determined as follows: 3 weeks gestation, 3â4 weeks suckling, 1â3 additional weeks until sexual maturity. But, generation time for the first litter is often longer.
10	Weaning age	21â28 days	In husbandry context, the age at which pups are removed from their mother, not when they start eating solid food. Varies among strains; depends on weanling size and maturity. Most strains are weaned at 21 days, some at 28 days. Do not remove pups from mother before 17 days unless they are transferred to a foster mother.
11	Total litters	2â8	Total litter number varies by strain. A total of 4+ litters is typical, but some strains produce as few as 1 or 2 litters.
12	Reproductive lifespan (female)	Terminates at 6-12 mo. of age	Strain dependent. For inbred strains, fecundity usually begins to decrease with the 3rd litter. By 6â8 months, some females become infertile, and litter size for most females of most strains has diminished to the point that it is more economical to set up a new breeding pair.
13	Reproductive lifespan (male)	Terminates at 12-14 mo. of age	Strain dependent. Fertility in some strains decreases starting at 10 months.
14	Delayed implantation	n/a	Implantation normally occurs during the fifth day after conception. However, if a female is nursing, implantation may be delayed for more than a week, during which time embryonic development is held in suspension.
15	Seasonal breeding fluctuations	n/a	Some strains are susceptible to changes in breeding behavior based on season.

	Factors	Action to promote successful breeding	Comments
1	Location of cages	â¢ Avoid locating cages near a heavily trafficked or noisy area, such as near a door or sink or a loudspeaker used for paging.	â¢ Changes in levels of noise and vibration can decrease breeding performance and may induce mothers to resorb litters, cannibalize their pups, or stop breeding.
1	Location of cages	â¢ Place cage racks several inches from the wall to prevent building vibrations from transferring to the cages.	â¢ Construction-related noise and vibrations may be especially problematic.
2	Lighting	â¢ Maintain a single, consistent, lighting cycle. The most common cycles are 14:10 (on:off) and 12:12.	â¢ Disruption of the light cycle may have an adverse effect on breeding.
2	Lighting	â¢ For wild-derived mice, use less intense lighting.
3	Barometric pressure	â¢ Maintain a stable barometric pressure.	â¢ Falling barometric pressure can cause some strains to become hyperactive, which reduces breeding performance.
4	Temperature and humidity	â¢ Keep the temperature at 16â26°C (64â79°F)	â¢ Thermoneutral temperature for mice is around 27â28°C (80â82°F). In contrast, for humans, it is about 22â23°C (72â74°F).
4	Temperature and humidity	â¢ Keep the humidity at 40â60%.
5	Air quality and odors	â¢ Keep the room air fresh, free from strong odors.	â¢ Mice are extremely sensitive to strong or noxious odors, but they like their own scent to be strong in their environment.
		â¢ Establish a "no perfume" policy for caretakers, technicians, or anyone who works with the mice.	â¢ Noxious fumes may reduce breeding performance.
		â¢ Use clean forceps or clean (or new) gloves for each cage.	â¢ Noxious fumes may reduce breeding performance.
6	Handling	â¢ Work gently, slowly, and quietly when handling breeding mice.	â¢ Laboratory mice respond best to calm, consistent handling.
		â¢ Try to regularly assign caretakers to the same cages so that the mice receive consistent care with familiar handling and odors.
		â¢ Avoid changing cages more often than once a week; if females are ready to give birth, skip cage changing until pups are 2 days old or you can see milk spots.	â¢ Often, mice do not like new technicians.
		â¢ Minimize handling and checking on the mice, especially if mice are pregnant or giving birth, or have new litters.	â¢ Wild-derived mice are especially sensitive to handling stress.
		â¢ Unless absolutely necessary, do not handle pups until they are 3 days old.
7	Bedding and nesting material	â¢ Provide nesting materials in the cage, especially if bedding (such as pellets from corn cob) does not lend itself to nesting.	â¢ The addition of material such as Kimwipes® or Nestlets® can promote nesting.
7	Bedding and nesting material		â¢ Nesting behavior is strain dependent.
8	Diet	â¢ Provide food with a dietary fat content of 4â11% fat w/w.	â¢ The optimal percentage of fat in the diet, with respect to fecundity, is strain dependent. Optimal fat content ranges from 4â12% w/w; a commercially available breeder diet with 9% fat w/w works well for most strains of mice.
		â¢ If mice have bad teeth, broken teeth (e.g., from gnawing or malocclusion), no teeth, or other phenotypes that affect their ability to eat normal mouse food, provide an alternate food supply, perhaps either ground or dampened food.
		â¢ If mice cannot reach the "normal" water or food supply, provide access to both on the cage floor.

	Problem	Possible resolution
1	Mice are not breeding.	A	Make sure you have male and female breeders.
		B	Add nesting material specifically designed for that purpose.
		C	Try a different diet, for example, one with more or less fat.
		D	Minimize stressâincluding human contact with the mice and activity and noise in the room. Construction-related vibrations, even outside the building, can disrupt breeding. If possible, move mice to a quieter area.
		E	Try a 14:10 light cycle.
		F	Make sure mice are healthy and able to breed (for example, not too obese or too old). Try healthier, younger animals.
		G	If you never see vaginal plugs, try a new male.
2	Females are not getting pregnant.	H	Determine whether the problem is the male or female: pair a proven breeder female with the male and a proven breeder male with the female.
		I	Surgically evaluate the reproductive tract. If the female appears normal, try low dose gonadotrophins, ovarian transplant, IVF; if the male appears normal, try IVF.
		J	Research the strain reproductive characteristics. For a transgenic, check the effect of the transgene on breeding. For a strain carrying a mutation, check the effect of the mutation. Adjust the breeding strategy accordingly.
3	Mice get pregnant but you never see pups (females are resorbing fetuses).	D (above)	The most common cause of fetal resorption is stress.
4	Individual breeders are not producing an expected number of pups.	B, C, D, E, F, H, J (above)	-
5	Females give birth, but donât raise their pups.	D, J (above) K	If you introduced a male to a cage with pups, he may have killed them. Wait to add a male until all pups have been weaned and removed.
6	Pups disappear or do not survive.
7	Colony productivity has dropped.	L	Check for environmental factors that might have changed. Consider room conditions (temperature, vibrations, building construction, odors, etc.), caretaker, and diet. If more than one cage, area, or strain is affected, expand the search. If possible, restore environment to previous conditions.